DE1804458C - Process for the production of a galvanic battery which contains galvanic elements arranged one above the other in a column-like manner in an insulated housing - Google Patents

Description

35

30th

The invention relates to a method for producing a galvanic battery, which is shown in an insulated housing, resiliently pressed against each other, galvanized 3s arranged in columnar fashion see contains items.

From the USA. Patent 3 347 709 a galvanic battery, which is columnar one above the other contains arranged, resiliently pressed against one another galvanic elements, known. These elements are wrapped in an insulating jacket, which in turn is surrounded by a metallic tube, whose Front sides are flanged and on the underside with the flanged edge a base plate and hold a pack while the flanged R.wd holds the connection plate at the upper end.

US Pat. No. 2,526,692 discloses a galvanic Battery known, the outer jacket of which forms one pole and is metallically conductive, with for Isolation of this pole from the individual galvanic elements both along the side walls Insulation is provided as well as further insulation on the upper end face in order to short-circuit the entire battery through the metallic jacket. If the mantle is a pole this also has the disadvantage that when several batteries are connected in series, a tight * Placing them next to one another is not possible, so that such batteries are not easily too close to one another Allow battery packs to unite.

From the German Auslegeschrift 1 232 625 and the USA.-Patent 2 436 382 it is known for the resilient pressing of the galvanic elements special spring elements or special spring contacts to use.

The present invention is based on the object to specify a method for producing a galvanic battery of the type mentioned at the beginning, the parts required if other parts are omitted, such as * spring elements and additional insulation: -. gen, the assembly of the battery allowed to mechanize largely without affecting the quality of the internal Connection and sealing, the storage period and the working life of the battery impaired

will. ...

According to the invention, this is achieved in that the housing, which is made of plastic, is attached to the housing Inside with an insulating material glued on the pole tablet leading from the floor, the elements are inserted an intermediate layer with air circulation ducts and the other pole conductor on the upper element placed, the free end of the pole conductor leading to the ground folded over on the intermediate layer and on it, after an electrically conductive adhesive has been applied to the pole bushings, the pole Plastic covers containing bushings on d; i> Housing is placed in such a way that it exerts an axial pressure on the elements, and that one him welds in this position by means of ultrasound or the like in the usual way.

This method makes it possible to largely mechanize the assembly of the battery without that a loss of quality must be accepted. The simplified design allows the Manufacturing otherwise required components to be forgiven ten, which also eliminates the operations associated with insertion and assembly. The volume that becomes free with this type of construction can be used to increase the amount of active materials increasing the capacity of the Balterie. The hermetic seal improves the storability and if it is carried out by welding with ultrasound is not applicable soldering and welding under heat, which better guarantees the quality of the internal connections and the cost of materials is reduced.

The invention will now be based on exemplary embodiments with reference to the drawings explained in more detail. It shows

1 shows a longitudinal section through an according to the invention built-up galvanic battery with a special air-conducting intermediate layer and external Pole bushings that are attached to the housing cover,

F i g. 2 shows a longitudinal section through a galvanic battery constructed according to the invention, in which a The front of the housing is stepped and the pole bushings are attached to the housing cover are.

In Fig. 1 shows the galvanic battery which has a plastic housing 1. To the inside the housing is covered with an insulating material, the pole arrester 3 glued on. The galvanic eu. * Nente4 are placed in the housing with the negative electrode facing down. On the upper element 4 a special intermediate layer S with circulation channels and with the one attached to the intermediate layer 5 is placed positive pole arrester 6, the negative pole arrester 3 being bent onto the intermediate layer 5.

The pole bushings 8 and 9 are fastened in the plastic cover 7. On the lower surface of the pole bushings 8 and 9 a layer of electrically conductive adhesive 10 is applied (one drop each).

The plastic cover 7 is inserted into the housing 1, so that it presses the galvanic elements 4, and is connected to the housing by means of ultrasound

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or connected to hooves of any other method. The compression takes place galvanic elements 4, the pressing of the electrodes of the elements 4; it becomes the electrical contact between pole lead-throughs S and 9 with the positive one and the negative pole arresters 6 and 3, as well as the contact of the latter with the electrodes of the outer ones Reached elements 4, a complete sealing of the battery is ensured, it falls that Welding or soldering the pole conductors 6 and 3 to the external pole bushings 9 and 8 path. The pressure from the end faces of the housing 1 is exerted via the intermediate layer 5 and the pole conductor 6 and 3 evenly distributed over the elements 4 and transferred.

In Fig. 2 is a galvanic battery with a Plastic housing 11 and step-like shaped bottom 12 shown. On the inner wall of the plastic housing 11 is the positive with an insulating material 13 Pole arrester 14 attached. The galvanic elements 4 with the positive electrode are placed in the housing 11 brought down into it. The positive electrode of the outer element 4 is supported over the positive one Pole arrester 14 on the stepped bottom 12 of the housing 11. From above, the negative as Electrode of the outer element 4, an intermediate layer 15 with a negative pole conductor attached to it 16 attached, wherein the pole conductor is bent onto the intermediate layer 15. In the plastic cover 7 of the Housing 11, the negative and positive pole bushings 8 and 9 are attached to the base a layer 10 of electrically conductive adhesive is applied to the terminal bushings 8 and 9 (each a drop).

The cover 7 is inserted into the housing 11 in such a way that it presses the galvanic elements 4, whereupon it is welded to the housing 11 with ultrasound. The electrodes of the elements 4 are pressed against one another, electrical contact of the pole bushings 8 and 9 with the positive and negative α pole arresters 14 and 16, as well as the pole arresters 14 and V> with the electrodes of the outer elements 4 is ensured, whereby a complete sealing of the galvanic battery is sufficient.

The pressure from the end faces (from the cover 7 and the bottom 12) of the plastic housing 11 ver. divides evenly over the intermediate layer 15 and the pole arresters 14 and 16 and is applied to the electrodes of the elements 4 transferred.

1 sheet of drawings

Claims (1)

I 804 Claim to benefit: Process for the production of a galvanic battery, which is in a column-like manner in an insulated housing one above the other, resiliently pressed against one another Contains galvanic elements, characterized in that in the plastic housing (1,11), on its On the inside with an insulating material (2, 13) the pole conductor (3, 14) leading from the ground is glued was, the elements (4) are inserted, on a? s upper element an intermediate layer (S, 15) with circulating air ducts and the other pole conductor (6, 16) placed, the free end of the leading to the ground Pole arrester (3, 14) placed on the intermediate layer (5, 16) Ln and then on the pole leadthroughs (8, 9) an electrically conductive adhesive was applied to the terminal bushings containing plastic cover (7) on the Ge ao housing is placed in such a way that it exerts an axial pressure on the elements, and that one him in this position with ultrasound or the like in welded on in the usual way.