RU2042234C1 - Galvanic battery - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: galvanic battery has series-connected cells 1 arranged in case 2 made of electrically insulating material. Made in battery cover are holes to install mating part of connector and slots on cover side surface through which current leads 8,9 are brought out. Current leads embrace sections of cover adjoining the hole and are fitted in cover holes. Battery case can be made integral with cover, and current leads, in places of contact with case, can be partially potted with case material. EFFECT: increased adaptability to manufacture owing to reduction of number of parts and simplified design of parts. 3 cl, 4 dwg

Description

 The invention relates to electrical engineering and can be used in galvanic batteries, mainly in batteries of primary chemical current sources, for example, in batteries of air-manganese-zinc systems.

Known galvanic battery containing a metal housing in which are placed in series connected elements, a cover of electrical insulation material, in which are mounted cup-shaped down conductors attached to the extreme elements, and the bottom is made of electrical insulation material [1]
The closest in technical essence and the achieved result to the described galvanic battery is a galvanic battery containing series-connected elements placed in a housing of electrical insulation material, a cover of electrical insulation material and down conductors in the form of flat tapes [2]
A disadvantage of the known galvanic batteries is the low manufacturability of its manufacture, due to the fact that the design of the switching connections of the battery determines the need for the manufacture of special parts, and additional nodes are introduced for docking the battery with current collectors.

 The aim of the invention is to increase the manufacturability of the manufacture of a galvanic battery.

 To achieve the goal, in a galvanic battery containing serially connected elements placed in a housing made of electrical insulation material, a cover made of electrical insulation material and down conductors in the form of flat tapes, holes are made in the cover, and grooves are made in the side wall of the cover communicating with the internal cavity of the housing through which are brought out to the outside, the envelope sections of the cover adjacent to the holes, and brought into the holes of the cover, while it is preferable to run the housing in one piece with the cover, the current The bends in places of contact with the housing shall be partially filled with housing material.

 Improving the manufacturability of a galvanic battery is achieved both by simplifying the parts that make up the battery, and by reducing the number of parts. The execution in the side wall of the cover of the grooves communicating with the internal cavity of the housing allows you to use these grooves to pass through them down conductors and thus refuse to attach down conductors to the cover. Making holes in the lid along with bringing the ends of the down conductors to the outer surface of the lid with an envelope around the sections of the lid adjacent to the openings, and inserting them into the openings of the lid allows you to organize an effective system for connecting current collectors to the current collectors of the battery. Simplification of the design of the galvanic battery can significantly improve the manufacturability of its manufacture, since the grooves and holes in the lid are formed simultaneously during the manufacture of the lid by casting. The housing is preferably carried out in one piece with the lid, which leads to a further increase in manufacturability in connection with the possibility of simultaneous manufacture of the housing with a lid in injection mold. Fixing the middle sections of down conductors also contributes to the improvement of manufacturability by installing down conductors in the injection mold while manufacturing a case with a cover. This makes it possible to simplify the assembly of the battery, since the collectors are fixed relative to the housing.

 Figure 1 shows a galvanic battery in the context (with one of the current collectors); figure 2 the same galvanic battery, top view; figure 3 galvanic battery in which the housing is made in one piece with the cover; in FIG. 4 galvanic battery, in which down conductors are partially located in the housing.

 The galvanic battery contains series-connected elements 1 (a section of such elements is shown), the housing 2 is made of electrical insulation material, the cover 3 is made of electrical insulation material with holes 4, 5 and with grooves 6, 7 in its side wall, down conductors 8, 9, the guiding bevel 10, the partition 11. Current collectors are mounted on the circuit board 12, with which down conductors 8, 9 are joined.

 The embodiment with the implementation of the housing 2 in one piece with the lid (figure 3) uses the bottom, mating with the housing.

 A variant of a galvanic battery with sections of down conductors 8.9 filled with the material of the housing 2 is shown in FIG. 4.

 The housing 2 and the cover 3 are made of electrical insulating materials that are well suited to casting and have sufficient elastic properties, for example, polystyrene, polyethylene, polyvinyl chloride, etc. The holes 4, 5 in the cover 3 are made as shown in FIG. 2 or in the form of blind holes connected to the side surface of the cover 3 with grooves through which the down conductors 8, 9 are led into the openings 4, 5 of the cover 3. The down conductors 8, 9 are made from segments of metal tapes, for example nickel, stainless steel, tinplate, etc., tenths of a millimeter thick (for example, 0.05-0.15 mm) and a few millimeters wide (for example, 1.5-3 mm). The ends of down conductors 8.9 are connected to the electrodes of the end elements 1 in the section by soldering, welding or molding. The width of the grooves 6, 7 in the side wall of the cover 3 is chosen to exceed the width of the tapes 8, 9. To fix the cover 3 on its side surfaces, protrusions are made, which are placed in the corresponding grooves or hollows of the housing 2.

 A galvanic battery is manufactured and used as follows.

 After casting the housing 2 and the cover 3 and attaching the down conductors 8, 9 to the electrodes of the outermost elements 1, these elements are placed in the housing 2 and mate with the cover 3, passing the down conductors 8, 9 through the grooves 6, 7 of the cover 3, and the ends of the down conductors 8, 9 lead into the holes 4, 5 of the cover. The consumer is connected to the galvanic battery by docking current collectors with down conductors 8.9. One of the current collectors is shifted along the guide lug 10 (Fig. 1), while the current collector deforms the tape collector 8 and presses it against the wall of the hole 5. Then, with a light pressure, the second collector is inserted into the hole 4. In this case, the ends of the collectors 8, 9 are fixed between the collectors. and the walls of the holes 4.5. The consumer receives current produced by a galvanic battery.

Claims (3)

 1. A galvanic battery containing series-connected elements placed in a housing of electrical insulation material, a cover of electrical insulation material and down conductors in the form of flat tapes, characterized in that, in order to improve manufacturability, holes are made in the cover and grooves are made in the side wall of the cover communicating with the internal cavity of the housing, through which down conductors are brought out, enveloping portions of the cover adjacent to the holes and brought into the holes of the cover.  2. The battery according to claim 1, in which the housing is made in one piece with the cover.  3. The battery according to claims 1 and 2, in which the down conductors in places of contact with the housing are partially filled with housing material.

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