Chemistry: electrical and wave energy – Apparatus – Electrolytic
Reexamination Certificate
2001-07-05
2003-11-25
Tung, T. (Department: 1753)
Chemistry: electrical and wave energy
Apparatus
Electrolytic
C205S783000
Reexamination Certificate
active
06652722
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to the measurement of the partial pressure of a given gas in a gaseous medium, for example the measurement of the partial pressure of oxygen in the air.
More precisely, it relates to sensors for measuring this partial pressure using an electrochemical cell. This cell consists of a cathode made of a noble metal (such as platinum), an anode made of lead, and an electrolyte, (such as soda).
DESCRIPTION OF THE RELATED ART
It is conventional practice to make the anode in porous form (from lead wool for example) and to impregnate it with electrolyte. The cathode and the anode are boxed in a casing while being separated by an insulating membrane permeable to the electrolyte. Means of feeding and of extracting the gas to be analyzed are associated with this cell. These sensors also comprise a diffusion barrier which limits the gaseous flux entering the cell, in such a way as to endow the sensor with better sensitivity. It is preferable, in general, for the cell to detect the partial pressure of oxygen in the air to be analyzed and not its concentration (since the partial pressure of oxygen is more representative of any risks incurred by persons breathing this atmosphere, in particular in partially evacuated premises) Certain sensors use nonporous membranes as diffusion barrier, as described for example in the document U.S. Pat. No. 4,495,051. For this purpose it is necessary to use membranes of very small thickness. Above all, these membranes are very sensitive to temperature variations, thereby limiting the accuracy and the reliability of the sensors thus constructed.
In another type of known sensor the diffusion barrier achieves a Knudsen-type mode of diffusion. This mode of diffusion is obtained by using as the main element of the diffusion barrier a membrane made of a porous material having sufficiently small pores for the number of collisions between the gas molecules and the walls of the pores to be much larger than the number of intermolecular collisions. As a first approximation, it may be stated that the diameter of the pores must be much smaller than the mean free path of the molecules, which is of the order of 9.5 10
−8
m at ambient pressure and temperature.
The membrane must, furthermore, possess low thermal expansion between −10 and 40° C. (the customary temperatures of use of these cells), high mechanical stability over several years, and insensitivity to the humidity factor of the medium analyzed.
Such membranes may, in a known manner, be made from specially prepared PTFE strips, such as described for example in the document GB-A-2,049,952 which relates to sensors for measuring the partial pressure of oxygen of the above type. The various elements of the electrochemical cell are contained in a casing, plugged at its upper end by a metal cover. This metal cover comprises a central perforation of small diameter (of the order for example of 0.12 mm). In a preferred embodiment, the diffusion barrier consists of a strip of PTFE, placed above this perforation and gripped between two strips of adhesive tape which increase the diffusion path of the atmosphere to be analyzed. The whole is compressed by a metal lid sealed over the cover (for example by welding), drilled with small holes permitting access of the gas to the periphery of the diffusion barrier. Appropriate sensitivity of the sensor is thus obtained by limiting the flux of oxygen which travels through it and by compelling it to cross the largest possible part of the PTFE strip constituting the diffusion barrier.
This construction of the sensor has the following drawback however. The metal lid must be force fitted, by hammering, in such a way as to compress the PTFE strip so as to make it fill the entire space crossed by the gas to be analyzed. The hammering results in localized application of considerable loads which may lead to impairment of the strip and to enhanced degradation of its mechanical properties over time. Under these conditions, the pores of the diffusion barrier are damaged and the sensor rapidly becomes unreliable.
SUMMARY OF THE INVENTION
The aim of the invention is to propose a configuration of the upper part of a sensor for measuring the partial pressure of a gas of the above-described type endowing the sensor with enhanced reliability and enhanced durability.
Accordingly, the subject of the invention is a sensor for measuring the partial pressure of a gas in a gaseous medium, of the type comprising an electrochemical cell and a porous diffusion barrier situated upstream of said cell along the course of said gaseous medium, said diffusion barrier comprising a porous membrane having very fine pores, situated above an orifice made in a component surmounting a casing enclosing said electrochemical cell, characterized in that it comprises:
a cap surmounting said casing in a leaktight manner, said cap including or consisting of a first component provided with a central recess in the bottom of which said orifice is made, a housing being provided in the bottom of said recess around said orifice so as to place said porous membrane therein;
a second component applying said membrane against the bottom of said housing with a clearance between said second component and the lateral wall of the housing permitting the passage of the gaseous medium to be analyzed toward said membrane; and
a third component held in said central recess of said first component in such a way as to exert on said second component the pressure required for the application of said membrane against the bottom of said recess, and comprising at least one orifice permitting the passage of said gaseous medium from outside the sensor up to said membrane.
Said first, second and third components are preferably made of a corrosion-insensitive metallic material exhibiting low expansion between −10 and 40° C., such as SUS 316L stainless steel.
In one embodiment, said cap comprises a polymer envelope laterally jacketing said first metal component, and said envelope ensures leaktight contact between the cap and the casing enclosing the electrochemical cell.
Preferably, the central recess of said first component comprises a thread on its lateral wall, and the third component comprises on its external wall a thread corresponding to the previous one, so as to ensure the securing together of the first and third components and the holding of the third component in a position where it can ensure the application of the second component against the porous membrane.
As will have been understood, the invention consists firstly in effecting the plugging of the upstream part of the casing enclosing the electrochemical cell (that is to say of the part via which the gas to be analyzed enters the sensor) by a cap comprising a first recessed component. The bottom of this recess comprises a housing in the bottom of which is made the orifice via which the gas to be analyzed enters the electrochemical cell. A patch made of a porous material able to constitute a Knudsen-type diffusion barrier is arranged in the bottom of this housing. The recess is filled in at its upper part with another perforated component which exerts a pressure on an intermediate component; the latter is itself placed in the housing enclosing the porous patch with a very slight clearance permitting the passage of the gas to be analyzed.
The pressure exerted on the intermediate component is transmitted by the latter to the porous patch, so that the latter preferably occupies the entire bottom of its housing. Thus, the gas to be analyzed crosses the porous patch following the longest possible path, thereby optimizing the performance of the sensor in terms of sensitivity. Moreover, the compressive loads applied to the porous patch are also distributed over the whole of its surface, both during the mounting of the sensor and during its use. Hence, no zones which, at one time or another, would be subjected to an excessive load which might impair the patch are created on the latter.
REFERENCES:
patent: 4182666 (1980-01-01), Dickinson e
Beaumont Jean-Marie
Gaston Chevalier Daniel Lucien
Taylor Malcolm
Witrant Lionel Félix
Oldham
Tung T.
Young & Thompson
LandOfFree
Sensor for measuring the partial pressure of a gas of the... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Sensor for measuring the partial pressure of a gas of the..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Sensor for measuring the partial pressure of a gas of the... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3176181