PL6002B1 - Electric cell. - Google Patents

Description

The present invention relates to an electric cell containing no depolarizing materials, in which the depolarization is effected by the action of the surrounding atmosphere. The present invention is a specific design of the positive electrode, providing the advantages of: a) electrical conductivity, b) porosity, c) easier access of air or depolarizing gases to the mass of the electrode, and d) keeping the latter as dry as possible. The characteristic features of the idea come down to two points: 1. The use of a positive conductive porous mass in the electrode, which the upper part extends above the electrolyte level in the atmosphere. This mass, consisting of, for example, charcoal, makes it possible to circulate the gases that are released as a result of the cell's operation. 2. Protection of the said porous mass from the moisture of the electrolyte A coating or sheath of such a permeability that the inflow of the electrolyte is so weak that the liquid, upon contact with the porous material, evaporates into the air or in general in the gas atmosphere surrounding the electrode . Under similar conditions, the porous mass surrounding the positive electrode remains as dry as possible perfectly and retains its absorption capacity. It follows that the gases generated during operation are absorbed, which ensures a continuous depolarization of the cell. Therefore, a similar system link, which is the subject of the invention, is distinguished by a significant advantage of the stability of its voltage, \ And for a more precise rendering of the essence of the cell. Two embodiments are given below of the present invention. In the attached drawing, Fig. 1 shows the vertical section of a liquid electrolyte cell, Fig. 2 - a similar section of a dry cell. In the embodiment according to Fig. 1, the positive electrode is made of carbon and inserted in the layer of charcoal b made under considerable pressure and annealed at a temperature sufficient to remove the hydrocarbons contained in this carbon, and to provide it with sufficient porosity and considerable electrical conductivity. Of course, the body b can be given any shape: a cylinder, a parallelogram, possibly with wings, etc. So that the electrode immersed in the electrolyte does not absorb too much fluid, which would reduce its ability to absorb gases, we surround the body b with the vagina. it forms a weakly permeable (with regard to fluids) and thus permeates liquids slowly, so that their inflow into the porous mass 6 occurs so slowly that upon contact with the ambient gas, accumulated in the pores of the body in question. These vaginas can be made, for example, of a gelatinous material, such as the solidifying gelatines used in dry cells. The whole arrangement is housed in a vessel made of a porous and permeable material, which protects the vagina from impact damage. the upper vagina is covered with a layer of protective material, such as rosin, lacquer, etc. Carbon and the porous mass protrudes above the vessel, in direct contact with air or other gas, causing depolarization of the electrodes. Positive electrode. , constructed as described above, is immersed in a liquid electrolyte, such as ammonia water chloride, for example. The negative electrode g consists, as usual, of zinc. In a similar cell, the porous mass d remains always in a state as far as possible. dry, which ensures free circulation of gases. As a result, hydrogen and ammoniacal gas, which are released during the operation of the cell, are absorbed by the formation of the cell by the porous mass b, which naturally determines the continuous depolarisation of the cell. In the case of applying the invention to a cell with a solidified electrolyte (Fig. 2) the sheath c and the coating d become redundant and the positive electrode forms directly carbon a, surrounded by a porous mass in the form of e.g. charcoal b, as described above, and immersed in a solid electrolyte h, contained in a zinc vessel g being a negative electrode and covered with a layer of caliphony, lacquer or other materials. As before, the carbon and the porous mass should protrude above the vessel so that they remain in constant contact with air. or other gaseous agent acting as a depolarizer. In the system of the present invention, a rough carbon mass does not necessarily need to be agglomerated; it is usually sufficient to roll around the carbon a. The b body is placed in a linen bag, for example; a more conductive material, such as lead oxide, may not be added. In order to achieve a better partitioning of the porous material, and to achieve faster depolarization, the positive electrode may be made in the form of several "sheets" of ordinary carbon alternating with carbon "sheets" of wood, pressed together in any suitable way. It is simple, however, that a similar link can be given all sorts of shapes and dimensions. PL

Claims (1)

Patent claims. 1. An electric cell, characterized by the use of a positive conductive porous mass around the electrode, reaching into the surrounding atmosphere and surrounded by a plastic, gelatinized, protecting it from electrolyte moisture, and this in such a way that the conductive porous mass is kept dry the total gas absorption capacity was fully preserved, and these gases, which were released during the operation of the cell, were continuously absorbed to achieve the continual depolarization of the cell. 2. Link according to claim The method of claim 1, characterized in that the conductive porous mass surrounding the positive carbon electrode is covered with a gelatinized sheath of such a degree of permeation that the flow of electrolyte to the porous mass remains at a level ensuring its evaporation, as required. contact with a porous material, the porous mass and the vagina surrounding it are housed in the porous vessel and the entire positive electrode, thus constructed, is immersed in a liquid electrolyte, e.g. in a salmic water solution, with the negative electrode forming as usual , zinc. 3. Electric cell with a solid, i.e. dry, fluid, according to claim 1, the significant point is that the positive electrode is carbon formed, surrounded by a sticky or compacted porous conductive mass, which electrode is embedded in the gelatinous material in which the electrolyte is solidified, and the whole assembly is placed in a zinc vessel, which constitutes the negative electrode. 4. A variant of an electric cell according to claim 1 to 3, characterized by the fact that the positive electrode is made up of several sheets of plain carbon, covered with sheets of conductive porous material, tightly pressed together and surrounded by a gelatinous material, protecting them from electrolyte moisture. Societe "L e Carbone". Deputy: K. Czempinski, patent attorney. To the patent description Fig 1. Fig 2 Print by L. Boguslawski, Warsaw. PL