Low volume sample cell and gas monitoring system using same

US 7,294,839 B2
Filed: 10/03/2003
Issued: 11/13/2007
Est. Priority Date: 10/08/2002
Status: Expired due to Term

First Claim

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1. A sidestream sample cell comprising:

a sample cell body having a cell body width, a cell body length, a longitudinal axis defined along the length of the sample cell body, a first port defined in a first end of the sample cell body, a second port defined in a second end of the sample cell body, and a first passage defined in the sample cell body generally between the first port and the second port, wherein the first port and the second port are coaxially aligned with the longitudinal axis of the sample cell body;

a sample cell core having a cell core width, a cell core length, and a second passage defined in the sample cell core such that the second passage has a generally “

Z-shaped”

configuration through the sample cell core, wherein a central leg of the second passage is defined through the sample cell core in a direction corresponding to the cell core width and generally perpendicular to the longitudinal axis of the sample cell body, wherein the first passage is in fluid communication with the second passage, and wherein the sample cell core includes at least one first optical aperture defined therein to allow light to pass through the central leg of the second passage; and

a first window disposed over the first optical aperture, and wherein the cell core width in combination with a thickness of the first window is not less than the cell body width so that the cell core width in combination with the thickness of the first window defines a maximum width of the sample cell over a length of the sample cell body that inserts into a sidestream gas monitoring system.

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Abstract

A sample cell, which is a component of a gas monitoring system, includes a sample cell body and a sample cell core installed therewith. The sample cell is coupled to a sampling tube that communicates with an airway of a patient. Gas from the sampling tube passes through the sample cell such that the flow profile remains substantially undisturbed. Within the sample cell, at least one optical aperture permits radiation to be emitted, pass through the gas in the sample cell core, and detected. In this manner, measurements of the partial pressure or concentration of a gas of interest are determined.

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14 Claims

1. A sidestream sample cell comprising:
- a sample cell body having a cell body width, a cell body length, a longitudinal axis defined along the length of the sample cell body, a first port defined in a first end of the sample cell body, a second port defined in a second end of the sample cell body, and a first passage defined in the sample cell body generally between the first port and the second port, wherein the first port and the second port are coaxially aligned with the longitudinal axis of the sample cell body;
  
  a sample cell core having a cell core width, a cell core length, and a second passage defined in the sample cell core such that the second passage has a generally “
  
  Z-shaped”
  
  configuration through the sample cell core, wherein a central leg of the second passage is defined through the sample cell core in a direction corresponding to the cell core width and generally perpendicular to the longitudinal axis of the sample cell body, wherein the first passage is in fluid communication with the second passage, and wherein the sample cell core includes at least one first optical aperture defined therein to allow light to pass through the central leg of the second passage; and
  
  a first window disposed over the first optical aperture, and wherein the cell core width in combination with a thickness of the first window is not less than the cell body width so that the cell core width in combination with the thickness of the first window defines a maximum width of the sample cell over a length of the sample cell body that inserts into a sidestream gas monitoring system.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The sample cell of claim 1, wherein the sample cell core further includes at least one second optical aperture defined therein, and wherein the second optical aperture is optically aligned with first optical aperture;
    - and further comprising;
      
      a second window dispose over the second optical aperture.
  - 3. The sample cell of claim 1, wherein in addition to the central leg, the second passage includes a first leg coupling the first port to a first end of the central leg, and a second leg coupling the second port to a second end of the central leg.
  - 4. The sample cell of claim 3, wherein a portion of the “
    - Z-shaped”
      
      configuration is adjacent to the first window.
  - 5. The sample cell of claim 1, further comprising at least one snap-in retainer ring positioned around the first window.
  - 6. The sample cell of claim 1, wherein the sample cell core is selectively attachable to the sample cell body, and wherein the first passage defined in the sample cell body includes a chamber adapted to receive the sample cell core.
  - 7. The sample cell of claim 6, wherein the sample cell core is mechanically keyed to insure alignment of the first and second passages during assembly of the sample cell core to the sample cell body.

8. A sidestream gas monitoring system comprising:
- (a) a sidestream gas monitor comprising;
  
  (1) a radiation source adapted to emit a plurality of wavelengths of infrared radiation absorbable by a selected gas, and(2) a radiation detector positioned to sense radiation of a plurality of wavelengths emitted from the radiation source, whereby the amount of infrared radiation from the radiation source that impinges upon the radiation detector is proportional to the content of the selected gas passed between the radiation source and radiation detector, and wherein the radiation source and the radiation detector are spaced a first distance apart; and
  
  (b) a sample cell having at least one passage defined therethrough, and wherein the sample cell includes at least one first optical aperture defined therein to allow the plurality of wavelengths of infrared radiation from the radiation source to pass through at least a portion of the passage, wherein the sample cell includes;
  
  (1) a sample cell body having a cell body width, a cell body length, a longitudinal axis defined along the length of the sample cell body, a first port defined in a first end of the sample cell body, a second port defined in a second end of the sample cell body, and a first passage defined in the sample cell body generally between the first port and the second port, wherein the first port and the second port are coaxially aligned with the longitudinal axis of the sample cell body,(2) a sample cell core having a cell core width, a cell core length, and a second passage defined in the sample cell core such that the second passage has a generally “
  
  Z-shaped”
  
  configuration through the sample cell core, wherein a central leg of the second passage is defined through the sample cell core in a direction corresponding to the cell core width and generally perpendicular to the longitudinal axis of the sample cell body, and wherein the first passage is in fluid communication with the second passage, and(3) a first window disposed over the first optical aperture, and wherein the cell core width in combination with a thickness of the first window is substantially the same as the first distance and is not less than the cell body width, so that the cell core width in combination with the thickness of the first window defines a maximum width of the sample cell over a length of the sample cell body that inserts into the sidestream gas monitor.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The gas monitoring system of claim 8, wherein the sample cell core is selectively attachable to the sample cell body, wherein the first passage defined in the sample cell body includes a chamber adapted to receive the sample cell core, and wherein the sample cell core is mechanically retained within the chamber.
  - 10. The gas monitoring system of claim 8, wherein the sample cell core is mechanically keyed to insure alignment of the first passage and the second passage.
  - 11. The gas monitoring system of claim 8, wherein in addition to the central leg, the second passage includes a first leg coupling the first port to a first end of the central leg, and a second leg coupling the second port to a second end of the central leg.
  - 12. The gas monitoring system of claim 11, wherein a portion of the “
    - Z-shaped”
      
      configuration is adjacent to the first window.
  - 13. The gas monitoring system of claim 8, further comprising:
    - at least one second optical aperture defined in the sample cell, wherein the second optical aperture is optically aligned with first optical aperture; and
      
      a second window disposed over the second optical aperture.
  - 14. The gas monitoring system of claim 8, further comprising:
    - at least one snap-in retainer ring positioned around the first window.

Specification

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Current Assignee
Philips RS North America LLC (Koninklijke Philips N.V.)
Original Assignee
RIC INVESTMENTS LLC (Respironics Incorporated)
Inventors
Sandor, John L, Rich, David R
Primary Examiner(s)
Porta; David
Assistant Examiner(s)
Rosenberger; Frederick F

Application Number

US10/678,683
Publication Number

US 20040065835A1
Time in Patent Office

1,502 Days
Field of Search

250/343, 25033912-33913, 250/437, 250/338.1, 250/339.01, 250/339.06, 250/339.1, 250/428, 250/432.R, 250/435, 73 232- 233, 356/246, 356/440, 356436-437, 600/532, 600/538, 128/204.22
US Class Current

250/343
CPC Class Codes

G01N 21/05 Flow-through cuvettes G01N2...

Low volume sample cell and gas monitoring system using same

First Claim

3 Assignments

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Abstract

38 Citations

14 Claims

Specification

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Low volume sample cell and gas monitoring system using same

First Claim

3 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

38 Citations

14 Claims

Specification

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Solutions

Use Cases

Quick Links