Oxygen sensors
First Claim
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1. An electrochemical gas sensor comprising:
- a body having first and second chambers located inside the body separated by an opening that is also located inside the body;
a working electrode disposed within one of the chambers; and
a sealing member disposed over the opening between the first and second chambers, the sealing member, in turn, having at least one opening therethrough and an overlying micro-porous membrane carried therein to minimize temperature based shocks, said micro-porous membrane allowing electrolyte ions to pass through the micro-porous membrane and preventing the bulk transport of gas and exchange of air between the first and second chambers, said micro-porous membrane holding liquid in the pores of the micro-porous membrane by surface tension and capillary action and wherein pressure must be applied across the micro-porous membrane between the first and second chambers to overcome the surface tension and the capillary action before gas is able to cross the sealing member between the first and second chambers, the micro-porous membrane having a bubble point pressure of at least 0.13 bar.
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Abstract
An electrochemical oxygen sensor includes a micro-porous plastic membrane supported on a sealing disk and located between a gas inflow port and the sensor'"'"'s electrolyte. The membrane and disk minimize thermal shock effects due to using the sensor at a first location, at a first temperature, and then moving it to a second location at a different temperature.
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Citations
17 Claims
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1. An electrochemical gas sensor comprising:
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a body having first and second chambers located inside the body separated by an opening that is also located inside the body; a working electrode disposed within one of the chambers; and a sealing member disposed over the opening between the first and second chambers, the sealing member, in turn, having at least one opening therethrough and an overlying micro-porous membrane carried therein to minimize temperature based shocks, said micro-porous membrane allowing electrolyte ions to pass through the micro-porous membrane and preventing the bulk transport of gas and exchange of air between the first and second chambers, said micro-porous membrane holding liquid in the pores of the micro-porous membrane by surface tension and capillary action and wherein pressure must be applied across the micro-porous membrane between the first and second chambers to overcome the surface tension and the capillary action before gas is able to cross the sealing member between the first and second chambers, the micro-porous membrane having a bubble point pressure of at least 0.13 bar. - View Dependent Claims (2, 3, 4, 5)
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- 6. An electrochemical gas sensor comprising a hollow housing having first and second chambers, at least one of which carries at least one electrode and which includes an inwardly extending, annular support surface located inside the hollow housing between the first and second chambers for a sealing member, a gasket and a micro-porous membrane, the micro-porous membrane allowing electrolyte ions to pass through the micro-porous membrane between the first and second chambers and preventing the bulk transport of gas and exchange of air between the first and second chambers, said micro-porous membrane holding liquid in the pores of the micro-porous membrane by surface tension and capillary action and wherein pressure must be applied across the micro-porous membrane to overcome the surface tension and the capillary action before gas is able to cross the micro-porous membrane, the micro-porous membrane having a bubble point pressure of at least 0.13 bar.
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11. A portable oxygen sensor which comprises a hollow housing having first and second chambers;
- the housing carrying at least sensing and counter electrodes;
a body of electrolyte in contact with one of the electrodes;
the housing defining a gas inflow port; and
a micro-porous planar membrane located within an interior of the hollow housing closing the interior of the housing between the first and second chambers and between the inflow port and a counter electrode to regulate an inflow of ambient gas, said micro-porous membrane allowing electrolyte ions to pass through the micro-porous membrane and preventing the exchange of air between the first and second chambers, the micro-porous membrane holding liquid in the pores of the micro-porous membrane by surface tension and capillary action and wherein pressure must be applied across the micro-porous membrane to overcome the surface tension and the capillary action before gas is able to cross the micro-porous membrane, the micro-porous membrane has a bubble point pressure of at least 0.13 bar. - View Dependent Claims (12, 13, 14, 15, 16, 17)
- the housing carrying at least sensing and counter electrodes;
Specification