Abstract: In a galvanic primary cell, the anode mixture of a zinc-alkaline electrolyte gel is displaced by the introduction of a hollow body into the concentrically arranged anode space so that the zinc powder is fixed in a layer oriented toward the cathode of the cell, ensuring proper discharge, and so that the aqueous portion of the anode mixture can escape inside the displacement body through narrow openings in the body's wall. By attaching the displacement body to the negative electrode conductor, the current drainage can be improved by making at least part of the displacement body of a metallically conducting material.

Abstract: Electrode plate for an electric storage battery including a lug for electrically coupling the plate to other plates in the battery and an insulating collar tightly engaging the root of each plate lug. In a stack of plates, the several collars abut one another so as to separate the lugs from each other and may serve to form a mold for shaping a plate strap cast thereon.

Abstract: A sealed lead acid recombination electric storage cell comprises a container containing alternating positive and negative plates separated by separators. Each separator includes reinforcing means extending over substantially its entire area and constructed to define a plurality of apertures and being surrounded by microfine glass fibre material. The plates and separators are under a compressive force and the reinforcing members are so constructed and arranged that the major proportion of the compressive force is transmitted through the reinforcing members while the major proportion of the area of the plates is contacted by the glass fibre material.

Abstract: An electrochemical cell having a conductive casing and an electrode plate assembly received therein, the plate assembly having exposable edge portions adjacent an interior surface of the casing, and insulation means comprising a nonconductive insulating casting self-adhered to the interior surface of the cell casing and disposed intermediate the interior surface and the exposable portions of the electrode plate assembly. The insulating casting is formed from a flowable material which is dispensed into the casing while flowable and which quickly hardens in place to become bonded to the casing.

Abstract: The method of the present invention comprises coating the surface of particles, such as glass beads, with a first coating, placing the coated particles in spaced relationship within a die so as to expose a portion of that coating, contacting that exposed portion with a second coating of material which forms an adhesive, and pressing the particles while still in the die against an electrode surface for a time and at a pressure sufficient to deform that surface and to bond the particles to that surface by the second coating without crushing the particles. The particles may be imbedded up to about 35% of their average diameter. The second coating is applied by a kiss coating technique utilizing a roller or the like. The electrode is thus provided with strongly adherent, discrete spaced particles which act as a separator to space the electrode from another electrode or the like. The method is simple, inexpensive, rapid and efficient.

Abstract: A separator is disclosed for a flat, substantially vertical electrode plate in an electric accumulator. An electrode array is also disclosed which consists of alternatingly placed positive and negative, flat, substantially vertically arranged electrode plates, and said separators. The separator is of the type which comprises two substantially vertical, U-shaped edge insulating members. According to the invention these are kept together by a bottom strip and two parallel top strips, all strips being substantially horizontal, and at least one vertical insulating rod between each top strip and the bottom strip, a space for the electrode plate being formed within said separator.

Abstract: The method of the present invention comprises coating the surface of particles, such as glass beads, with a first coating, placing the coated particles in spaced relationship within a die so as to expose a portion of that coating, contacting that exposed portion with a second coating of material which forms an adhesive, and pressing the particles while still in the die against an electrode surface for a time and at a pressure sufficient to deform that surface and to bond the particles to that surface by the second coating without crushing the particles. The particles may be imbedded up to about 35% of their average diameter. The second coating is applied by a kiss coating technique utilizing a roller or the like. The electrode is thus provided with strongly adherent, discrete spaced particles which act as a separator to space the electrode from another electrode or the like. The method is simple, inexpensive, rapid and efficient.