DE3324995A1 - Container for a storage battery - Google Patents

Abstract

In the case of a container for a storage battery, an electrode terminal element (15), which is formed with a thermoplastic synthetic resin part (16) around the circumference, is fitted in an opening made right the way through the side wall (12a) of the main container (12) and fastened therein by the thermoplastic synthetic resin part (16) which is arranged around the outer circumference of the electrode terminal element being fused to the inner surface of the through-opening. <IMAGE>

Description

Container for an accumulator

Description The invention relates to a container for an accumulator according to the preamble of claim 1 and in particular design improvements on a container for an accumulator of the type with a transverse in the side wall of the main container arranged electrode connection element Description of the state of the art: Fig. 1 shows the front view of a known container for a Batteries which made the present invention necessary. The container for an accumulator according to FIG. 1 consists essentially of a main container 2 and a cap 3. The cap 3 is on the top of the main container 2 fastened in a liquid-tight manner. Fig. 2 shows a sectional view along the line II-II in Fig. 1.

From this you can see that there are 2 electrodes and one in the main container electrolytic solution (not shown), which form an accumulator, are located, and that a Electrode connection element 4 across the side surface of the main container 2 is led out.

An accumulator which, as just described, has an electrode connection element 4, which is led out across the side wall, has various advantages. On the one hand, there is the creation of electrical connections for special purposes facilitated, on the other hand, the length of the lead member, which is to lead out of the electrodes located in the container is required to be reduced, whereby Electrode material is saved, the electrical characteristics of the accumulator improved, and the weight of the secondary battery can be reduced. However, since this Construction with the lead out of the electrode connection element 4 across the side wall with the through-going parts of the side wall of the main container 2 the electrolytic solution must be connected to the implementing parts be liquid-tight.

Fig. 3 shows an enlarged sectional view along the line III-III in Fig. 1, the part which is enclosed in Fig. 2 by a circle A, is drawn out enlarged. The following looks at the problems as they arise this type of conventional containers for accumulators occur, pointed out. In the conventional container for an accumulator 1, each one is led out transversely Electrode connection element 4 thereby locked in its position that first in the main container an opening 5 is worked into the side wall, into which the lead made of lead Electrode connection element 4 is fitted and crimped like a kind of rivet. Farther becomes one in the outer part of the electrode connection element shown in FIG 4 incorporated threaded hole 4a used to hold the container for an accumulator to be connected to the outside. Since the electrode connection element in its position by Flanging is fixed, are in this conventional container for an accumulator 1 requires a large number of manufacturing steps and beyond is on the liquid tightness of the electrode connection element 4 with respect to the performing part through the side wall of the main container 2 very low publisher, In constructions that are based on this, the disadvantage in terms of impermeability to liquids Australian Patent No. 47 392 should be cited, according to which an adhesive in the gap between the electrode terminal and the side wall of the main tank is introduced. However, the method of applying adhesive is not advantageous because the number of manufacturing steps is still increasing. Additionally Polypropylene as the material of the container for an accumulator 2 is very advantageous in terms of corrosion and heat resistance, but very unsuitable for adhesive connections. Therefore, not too much can be expected from the durability of adhesive bonds.

Summary of the Invention The invention provides a container for an accumulator, consisting of a main container made of thermoplastic synthetic resin, which is open at the top, a closure cover which is attached to the top of the The main container is arranged to close the container at the top, and electrode connection elements made of lead arranged to pass through the side wall of the main container lead out, each electrode connection element being cast in a metal mold and is surrounded by a thermoplastic synthetic resin on the outer circumference, so that both form the electrode terminal body, and in which the synthetic resin is part of the electrode terminal body and the resin of the side wall of the main container are welded together so that the electrode connection body on the main container is firmly arranged. That is, in the container according to the invention for an accumulator the # electrode terminal body as an electrode terminal member with a thermoplastic Synthetic resin, which is melted in one piece around its outer circumferential surface, is formed, and that the electrode connection body is then welded into a continuous Opening in the side wall. of the main tank was incorporated will. The welding can be done by the various known welding processes such as z. B.

Ultrasonic welding, vibration welding, high frequency induction welding and thermal welding.

According to a preferred embodiment, the side wall of the Main container with through openings and an annular projection around each through hole provided, while the resin part, which on the periphery is cast onto the electrode connection element, with an annular recess is formed, and the annular projection of the main container is with the annular Welded recess in the synthetic resin part of the electrode connection element, whereby both are connected to each other. However, it should be noted that the annular Projection, which is attached to the main container and the annular recess, which is molded into the electrode connection body are not always necessary. That r is called as long as the synthetic resin part which is integral with the circumference of the electrode connection element is poured, and the through openings, which in the side wall of the main container are incorporated, welded together and fastened together, is formed the subject of the present invention.

The container according to the invention preferably consists of an accumulator and the plastic part of the electrode connection body made of polypropylene. This material is chosen for its advantageous corrosion resistance and heat resistance properties.

As already mentioned, the electrode connection element according to the invention poured in a metal mold and its outer peripheral surface is made of thermoplastic Synthetic resin enclosed, whereby the electrode terminal body is formed will. Furthermore, the resin part of the electrode terminal body with the ring-shaped Welded projection of the through opening in the side wall of the main container and attached to it; so that a highly liquid-tight container for an accumulator is obtained. Furthermore, since it is only necessary, the resin on the periphery of the To cast on the electrode connection element in one piece and to weld the component, although this is only a relatively small component, no need for an exclusive large mold, and the equipment needed to make it used by conventional containers for accumulators can still be used will. This gives a cheap container for an accumulator.

The state of the art, as well as other features, advantages, and details of the invention emerge from the following description of the drawing.

1 is a front view showing an example of a conventional one Container for an accumulator.

FIG. 2 shows a sectional view along the line II-II in FIG. 1. 3 is a sectional view on an enlarged scale along the line III-III in FIG. 1.

The part which is outlined in Fig. 2 with a circle A becomes shown; 4 shows a front view of an exemplary embodiment of one according to the invention Container for an accumulator.

FIG. 5 shows a sectional view along the line V-V in FIG. 4; FIG. Fig. 6 is a partial sectional view for explaining the process of producing a Manufacture container for an accumulator and Fig. 7 is a sectional view along the line Vil-Vil in FIG. 4.

Description of the Preferred Embodiments; The one shown in FIG Container for an accumulator 11 consists essentially of a main container 12 and a cap 13. The cap 13 is liquid-tight attached to the top of the main container 12. In Fig. 5 it is shown that in the main container 12 electrodes and an electrolytic solution (not shown) are included, which form an accumulator, and that an electrode terminal body 14 transversely through the Side wall 12a of the main container 12 is led out.

The characteristic arrangement of the invention is made by reference on FIGS. 6 and 7.

From Fig. 6 it is clear that the side wall 12a of the main container 12 is formed with through openings 12b. On the perimeter of the continuous Opening 12b, an annular projection 12c is arranged, which protrudes outward. On the other hand, the lead electrode terminal 15 is made in a metal shape arranged and a thermoplastic synthetic resin is injected into this in such a way that so that this, which z. Bo is made of polypropylene, the outer peripheral surface of the Surrounds the electrode connection element and thus the entire electrode connection body 14 is formed. As can be clearly seen from FIG. 6, there is the electrode connection body 14 inside from the electrode connection element 15 made of lead, and has on its periphery the thermoplastic synthetic resin layer 16 is arranged.

The thermoplastic synthetic resin layer 16 has on its outer Circumference on a cylindrical wall. The inner surface of the cylindrical wall 17 and the wall surface 18 lying on a smaller radius form the side walls of the annular recess 19. The electrode connection body 14 is a separate part moved in the type just described in the direction of arrow X in Fig. 6 until the annular projection 12c on the main container 12 in the annular recess 19 of the electrode connection body 14 is received.

In this position, the synthetic resin layer 16 of the electrode terminal body 14 welded to the side wall? 2a of the main hanger 12. As a result of that It is shown in the sectional view in FIG. 7 that the electrode connection body 14 is fixed in this position.

Incidentally, the welded connection between the floor area the annular recess 19 and the front end of the annular projection 12c or between any other part. If as a welding process When heated tool welding is used, it depends on the welding process seen advantageous, a heating element against the bottom area of the annular recess 19 and to apply against the front end of the annular projection 12c to this to be heated and melted for an effective weld joint. In the event of an inductive high frequency welding is the heating and welding achieved that a ring of electrically conductive material as a heat source in the annular recess 19 is arranged.

This ring remains in the annular shape after heating and welding Recess 19.

As the welding process itself is not an integral part of this Invention, it should only be pointed out that various welding processes can be applied. So z. B. a welded connection by friction or Vibration of either the main container 12 or the electrode terminal body 14 or both, or by vibration of both by means of ultrasonic waves, what a heat generation by friction. That is, friction welding, Vibration welding and ultrasonic welding can be used.

LIST OF REFERENCE NUMERALS 1, 11 container for an accumulator 2, 12 main container 12a side wall 5, 12b openings 12c annular projection 3, 13 closure cover 14 electrode connection body 4, 15 electrode connection element 16 thermoplastic Synthetic resin part (layer) 17 cylindrical wall 18 wall surface 19 annular recess Blank page

Claims (6)

Container for an accumulator Claims: 1. Container for an accumulator (11) consisting of a main container (12) made of thermoplastic synthetic resin manufactured and open at the top, a closure cover (13) which is attached to the upper Side of the main container is arranged and closes the opening at the top, and an electrode connection element (15) which is made of lead and which is so arranged is that it leads out through the side wall (12a) of the main container, d a d u r c h g e k e n n n z e i c h n e t that the electrode connection element (15) in a Metal mold is molded, and on its outer periphery a thermoplastic synthetic resin part (16), so that thereby an electrode connection body (14) is formed, and that the thermoplastic synthetic resin part (16) of the electrode connection body (14) and the side wall of the main container are welded together ver, whereby the electrode terminal body (14) is firmly connected to the main container (12). 2. Container for an accumulator according to claim 1 r d a d u r c h it is noted that the side wall (12a) of the main container with continuous Openings (12b) is formed and an annular projection (12c) around the circumference each opening (12b), while the thermoplastic resin part (16) of the The electrode connection body (14) is provided with an annular recess (19), and the annular projection (12c) is welded to the annular recess (19) is, whereby the electrode connection body (14) is firmly connected to the main container (12) is. 3. Container for an accumulator according to claim 1, d a d u r c h it is noted that the annular projection (12c) and the annular Recess (19) in the front end region of the annular projection (12c) and in the inner bottom area of the annular recess (19) are welded together. 4. Container for an accumulator according to claim 1, d a d u r c h It is not noted that the main container (12) and the thermoplastic Synthetic resin part (16) of the electrode connection body (14) consist of polypropylene. 5. Container for an accumulator according to claim 2, d a d u r c h It is not noted that the main container (12) and the thermoplastic Synthetic part (16) of the electrode connection body (14) consist of polypropylene. 6. Container for an accumulator according to claim 3, d a d u r c h It is not noted that the main container (12) and the thermoplastic Synthetic resin part (16) of the electrode connection body (14) consist of polypropylene.