CS200823B1 - Sensing element for potentiometric determination of gaseous components changing acidibasic equilibrium of solution - Google Patents

Description

(54) a sensor for potentiometric determination of gaseous components altering the acid-base balance of a solution

The present invention relates to a seat for potentiometric determination of gaseous components altering the acid-base balance of a solution.

The idea of determining some gaseous components capable of altering the acid-base balance of a solution by potentiometric pH measurement with a glass electrode separated from the measured solution by a semipermeable membrane permeable to small molecules of these gases and impermeable to large molecules and ions is nearly a quarter of a century old. A number of solutions to this problem are known, the disadvantage of which is that they do not consistently solve the shape of the glass electrode, in particular its active portion of specific glass and the arrangement of the space between the electrode, or the membrane is not uniform and the response speed of the sensor varies depending on the film thickness.

These drawbacks are eliminated by a sensor for potentiometric determination of the gaseous components altering the acid-base balance of a solution comprising a glass electrode separated from the measured solution by a semipermeable membrane of the invention. The principle of the invention is that the glass electrode for pH measurement has an active portion of specific glass in a defined shape of a rotational surface perpendicular to the axis of the sensor. This active portion is not fused to a cylindrical carrier tube. The boundary between the two panes forms the edge of both surfaces. Thus conducted akle200 62J

200 823 the electrode is housed in a housing whose Selo is part of the same rotation surface as the active portion of the glass electrode. The sensor may be formed such that the rotating surface is a spherical canopy whose height is approximately 1/100 to 1/20 of the canopy base diameter.

The attached drawing shows an exemplary embodiment of a sensor according to the invention.

In the drawing, a longitudinal cross-sectional view of a sensor consisting of a single-stage member 1 is housed in a housing 2 in a basic solution 4. The sensor is separated from the outside by a semi-permeable membrane fixed by a locking ring 6 in the housing cutout 23.

The single-stage cell 1 comprises a glass electrode 11 and a reference electrode

The glass electrode comprises a stem 112. a spherical cap-shaped active glass portion 111 by an internal argentohloride electrode 113 and is filled with an internal electrolyte 114. The reference electrode 12 is formed by an external argentohloride electrode 121, a diaphragm 123 and is filled with an external electrolyte 122. it is sealed by a seal 13 consisting of a glass electrode plug 131, a reference electrode plug 132 and a sealing compound 133. In the housing 2, the single-stage cell 1 is sealed with a plug 25. The coaxial cable 14 consisting of an insulated inner conductor 141 provided with insulation 142. sheath 143 and insulating sheath 144. An internal argent chloride electrode 113 of the glass electrode 11 is connected to the inner conductor 141 of the coaxial cable, and an external argent chloride electrode 121 of the reference electrode 12 is connected to the shield 143. The cable 14 extends inside the housing 2 through a bushing 2. The housing 2 is formed by a body 22, bounded by a face 21 of a part of a spherical surface of the same radius as the spherical cap 111. A non-circle 24 is glued to the other end.

The described sensor design achieves a uniform shut-off of the semipermeable membrane across the active surface of the glass electrode and the formation of a uniform film of solution, the pH of which is influenced by the component to be determined, diffuses through the membrane.

Claims (3)

pSedmEivíHlezu A sensor for potentiometric determination of gaseous components altering the acid-base balance of a solution comprising a glass electrode separated from the measured solution by a semi-permeable membrane, characterized in that the active portion (111) of the glass electrode (11) has a defined rotational surface shape perpendicular to the axis of the sensor. 2. A sensor according to claim 1, characterized in that the glass electrode (11) is arranged in a housing (2) whose face (21) is part of the same rotation surface as the active part (111) of the glass electrode (11). 3. The sensor according to claim 1, wherein the rotating surface is a spherical canopy whose height is 1/100 to 1/20 of the canopy base diameter.