Sensor arrangement for optically measuring gas components
First Claim
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1. A sensor arrangement for optically measuring a gas component, the sensor arrangement comprising:
- a housing;
a transmitter mounted in said housing for generating measuring radiation;
first optical means also mounted in said housing for defining an optical axis and for focussing said measuring radiation into a light beam travelling down a beam path along said axis;
a receiver mounted in said housing downstream of said first optical means for receiving said beam;
light sensor means mounted in said receiver for providing a signal indicative of the intensity of the transmitted radiation of the light beam impinging thereon;
a light-transparent cuvette for accommodating the gas component to be measured;
said housing defining a cuvette holder for permitting said cuvette to be removably inserted therein while measuring the gas component;
said cuvette holder being arranged within said housing so as to hold said cuvette in said beam path between said optical means and said receiver;
said cuvette holder including window means fixedly mounted in said housing so as to be in said beam path for passing said beam to said cuvette wherein the gas component to be detected affects the intensity of said light beam;
said window means being positioned in said housing so as to cause said cuvette to be in virtual contact engagement with said window means when said cuvette is seated in said holder;
said window means having a first side in said virtual contact engagement with said cuvette and a second side facing away from said cuvette;
heating means mounted on said second side for heating said window means and transferring heat to said cuvette;
said heating means being arranged on said second side so as to permit said beam to pass unobstructed through said window means and to said cuvette; and
,second optical means for directing said light beam onto said light sensor means after said light beam has passed through the gas in said cuvette.
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Abstract
The invention is directed to a sensor arrangement for optically measuring the components of a gas. The sensor arrangement includes a housing containing a transmitter, a receiver device, a heatable holder for a measuring cuvette and optical devices for establishing the beam path. The sensor arrangement is improved by limiting the heating of the cuvette walls to those areas which lie in the beam path without the pass-through area of the optical devices being narrowed by the heating device. Also, the cuvette walls are heated in the manner described above without electrical contacts being disposed on the cuvette or on the sensor. The heatable cuvette holder includes one window disposed in the beam path which is transmissive for the measuring radiation. When the cuvette is seated in the cuvette holder, this window lies in virtual contact engagement with the cuvette and has a surface facing away from the cuvette. The heating device is applied to this surface of the window and is configured to allow the beam to pass therethrough.
68 Citations
8 Claims
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1. A sensor arrangement for optically measuring a gas component, the sensor arrangement comprising:
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a housing; a transmitter mounted in said housing for generating measuring radiation; first optical means also mounted in said housing for defining an optical axis and for focussing said measuring radiation into a light beam travelling down a beam path along said axis; a receiver mounted in said housing downstream of said first optical means for receiving said beam; light sensor means mounted in said receiver for providing a signal indicative of the intensity of the transmitted radiation of the light beam impinging thereon; a light-transparent cuvette for accommodating the gas component to be measured; said housing defining a cuvette holder for permitting said cuvette to be removably inserted therein while measuring the gas component; said cuvette holder being arranged within said housing so as to hold said cuvette in said beam path between said optical means and said receiver; said cuvette holder including window means fixedly mounted in said housing so as to be in said beam path for passing said beam to said cuvette wherein the gas component to be detected affects the intensity of said light beam; said window means being positioned in said housing so as to cause said cuvette to be in virtual contact engagement with said window means when said cuvette is seated in said holder; said window means having a first side in said virtual contact engagement with said cuvette and a second side facing away from said cuvette; heating means mounted on said second side for heating said window means and transferring heat to said cuvette; said heating means being arranged on said second side so as to permit said beam to pass unobstructed through said window means and to said cuvette; and
,second optical means for directing said light beam onto said light sensor means after said light beam has passed through the gas in said cuvette. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A sensor arrangement for optically measuring a gas component, the sensor arrangement comprising:
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a housing; a transmitter mounted in said housing for generating measuring radiation; first optical means also mounted in said housing for defining an optical axis and for focussing said measuring radiation into a light beam travelling down a beam path along said axis; a receiver mounted in said housing downstream of said optical means for receiving said beam; light sensor means mounted in said receiver for providing a signal indicative of of the intensity of the transmitted radiation of the light beam impinging thereon; a light-transparent cuvette for accommodating the gas component to be measured; said housing defining a cuvette holder for permitting said cuvette to be removably inserted therein while measuring the gas component; said cuvette holder being arranged within said housing so as to hold said cuvette in said beam path between said first optical means and said receiver; said cuvette holder including a first window fixedly mounted in said housing so at to be in said beam path for passing said beam to said cuvette wherein the gas component to be detected affects the intensity of the light of said light beam; said cuvette holder including a second window fixedly mounted in said housing for passing said light beam from said cuvette to said receiver; said windows being positioned in said housing so as to cause said cuvette to be in virtual contact engagement with said windows when said cuvette is seated in said holder; each of said windows having a first side in said virtual contact engagement with said cuvette and a second side facing away from said cuvette; heating means mounted on the second side of each of said windows for heating the window and transferring heat to said cuvette; said heating means being arranged on the second side of each of said windows so as to define a clear unobstructed region to permit said beam to pass therethrough; and
,second optical means for directing said light beam onto said light sensor means after said light beam has passed through the gas in said cuvette.
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Specification
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Current AssigneeDrager Medical AG & Co KG (Dragerwerk AG)
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Original AssigneeDragerwerk AG
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InventorsBest, Regina, Liesching, Eberhart, Grabbet, Bernd, Hattendorff, Horst-Dieter
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Primary Examiner(s)Smith, Ruth S.
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Assistant Examiner(s)NASSER, ROBERT L
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Application NumberUS07/533,811Time in Patent Office636 DaysField of Search250/343, 250/345, 128/716, 128/719US Class Current600/532CPC Class CodesA61B 5/0836 Measuring rate of CO2 produ...G01N 2021/0367 Supports of cells, e.g. piv...G01N 2021/0389 WindowsG01N 21/0332 with temperature control co...G01N 21/3504 for analysing gases, e.g. m...
