Chemistry: electrical current producing apparatus – product – and – Current producing cell – elements – subcombinations and...
Reexamination Certificate
1999-03-05
2001-04-03
Kalafut, Stephen (Department: 1745)
Chemistry: electrical current producing apparatus, product, and
Current producing cell, elements, subcombinations and...
C429S101000, C429S231800, C429S229000
Reexamination Certificate
active
06210827
ABSTRACT:
BACKGROUND
This invention relates to air depolarized electrochemical cells. This invention is related specifically to metal-air, air depolarized electrochemical cells, especially elongate cylindrical cells. Elongate cells are described herein with respect to cells having the size generally known as “AA.”
Button cells, also illustrated herein, are commercially produced in smaller sizes having lesser height-to-diameter ratios, and are generally directed toward use in hearing aids, and computer applications. Such button cells generally feature overall contained cell volume of less than 2 cm
3
, and for the hearing aid cells less than 1 cm
3
.
The advantages of air depolarized cells have been known as far back as the 19th century. Generally, an air depolarized cell draws oxygen from air of the ambient environment, for use as the cathode active material. Because the cathode active material need not be carried in the cell, the space in the cell that would have otherwise been required for carrying cathode active material can, in general, be utilized for containing anode active material.
Accordingly, the amount of anode active material which can be contained in an air depolarized cell is generally significantly greater than the amount of anode active material which can be contained in a 2-electrode cell of the same overall size. By “2-electrode” cell, we mean an electrochemical cell wherein the entire charge of both anode active material and cathode active material are contained inside the cell structure when the cell is received by the consumer.
Generally, for a given cell size, and similar mass, an air depolarized cell can provide a significantly greater number of watt-hours of electromotive force than can a similarly sized, and similar mass, 2-electrode cell using the same, or a similar, material as the anode electroactive material.
Several attempts have been made to develop and market commercial applications of metal-air cells. However, until about the 1970's, such cells were prone to leakage, and other types of failure.
In the 1970's, metal-air button cells were successfully introduced for use in hearing aids, as replacement for 2-electrode cells. The cells so introduced were generally reliable, and the incidence of leakage had generally been controlled to an extent sufficient to make such cells commercially acceptable.
By the mid 1980's, zinc-air cells became the standard for hearing aid use. Since that time, significant effort has been made toward improving metal-air hearing aid cells. Such effort has been directed toward a number of issues. For example, efforts have been directed toward increasing electrochemical capacity of the cell, toward consistency of performance from cell to cell, toward control of electrolyte leakage, toward providing higher voltages desired for newer hearing aid appliance technology, toward higher limiting current, and toward controlling movement of moisture into and out of the cell, and the like.
An important factor in button cell performance is the ability to consistently control movement of the central portion of the cathode assembly away from the bottom wall of the cathode can during final cell assembly. Such movement of the central portion of the cathode assembly is commonly known as “doming.”
Another important factor in button cell performance is the electrical contact between the cathode current collector and the cathode can or other cathode terminal. Conventional cathode current collectors comprise woven wire screen structure wherein ends of such wires provide the electrical contact between the cathode current collector and the inner surface of the cathode can.
While metal-air button cells have found wide-spread use in hearing appliances, and some use as back-up batteries in computers, air depolarized cells have, historically, not had wide-spread commercial application for other end uses, or in other than small button cell sizes.
The air depolarized button cells readily available as items of commerce for use in hearing aid appliances are generally limited to sizes of no more than 0.6 cm
3
overall volume. In view of the superior ratio of “watt-hour capacity/mass” of air depolarized cells, it would be desirable to provide air depolarized electrochemical cells in additional sizes and configurations, and for other applications. It would especially be desirable to provide air depolarized electrochemical cells which are relatively much larger than button cells. For example, it would be desirable to provide such cells in “AA” size as well as in the standard button cell sizes.
SUMMARY OF THE INVENTION
It is an object of the invention to provide an elongate air depolarized electrochemical cell having an elongate cathode.
It is another object of the invention to provide an air depolarized electrochemical cell having an effective top seal.
It is yet another object of the invention to provide an air depolarized electrochemical cell wherein an elongate cathode extends into a slot between a top grommet and a top closure member of the cell.
A further object of the invention is to provide an air depolarized electrochemical cell wherein an air permeable sheet in the cathode assembly extends about the upper edge of the cathode current collector, optionally about other elements of the cathode, and downwardly toward the inwardly-facing surface of the cathode current collector, preferably against an inner surface of the cell separator, which is commonly disposed between the anode and the cathode.
It is a yet further object of the invention to provide an air depolarized electrochemical cell wherein an air diffusion member in the cathode assembly is wrapped as at least 2 continuous layers, preferably at least 3 continuous layers, without intervening end, about a cathode assembly precursor.
It is another object to provide an air depolarized electrochemical cell which is relatively larger and more elongate than a hearing aid button cell, which has an overall discharge capacity at least as great as a similarly-sized alkaline manganese dioxide cell, and wherein the energy/mass ratio of such cell is significantly greater than the energy/mass ratio of a similarly-sized alkaline manganese dioxide cell.
The invention comprehends an air depolarized electrochemical cell, having a length, a top, and a bottom. The air depolarized electrochemical cell comprises a cathode, including an air cathode assembly, extending along the length of the cell; an anode, including electroactive anode material disposed inwardly, in the cell, of the cathode assembly; a separator between the anode and the cathode assembly; electrolyte dispersed in the anode, said cathode, and the separator; a top closure member closing the top of the cell; and a bottom closure member closing the bottom of the cell, the bottom closure member having an outer side wall, a lowest extremity of the bottom closure member, and an inner side wall extending upwardly from the lowest extremity, defining a slot between the outer and inner side walls, the cathode assembly being fixedly held in the slot, by a friction fit, between the outer and inner side walls.
The invention can further have a crimping bias in the inner side wall, directed toward the outer side wall, thus to partially close the slot, and effect the friction fit between the outer and inner side walls.
In some embodiments, a centrally-disposed cavity is defined inwardly of the inner side wall. The centrally-disposed cavity has a bottom opening at the lowermost extremity and a closed top at a bottom wall of the bottom closure member. The crimping bias in the inner side wall is located mid-way between the closed top and the bottom opening of the cavity. In other embodiments the crimping bias in the inner side wall is located adjacent the closed top of the cavity.
In some embodiments, the bottom closure member comprises a bottom wall disposed inwardly of the inner side wall, and the inner side wall extends upwardly between the lowermost extremity and the bottom wall, to a crimping bias directed outwardly toward the outer side wall. In some such embod
Dopp Robert Brian
Moy Gregory Scott
Oltman John Edward
Kalafut Stephen
Rayovac Corporation
Wilhelm Thomas D.
Wills M.
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