DE617654C - Dry cell with a metallic cup - Google Patents

Description

The invention relates to a dry cell with a cartridge in which the central electrode protrudes, while the other electrode is formed by a metallic cup whose upper edge is exposed. To at to achieve a gas-tight seal with such an arrangement of the dry cell, it has been proposed to put the edge of a metallic cap around the edge of the Metal cup to be bent over and crimped and the inner peripheral edge of the closure to press against an insulating washer that rests on the central electrode. With the well-known There are serious arrangements in the practical operation of the cell Disadvantages if a metal object, for example a second dry cell, is on the first is set, as is customary; the floor of the dry cell then provides a electrical connection between the two electrodes of the cell below and forms a short circuit with its known damaging effects on the cell. It has also been proposed to avoid exposing the upper edge of the metallic cup by using a Washer made of insulating material is used and the top edge of the metal cup is not beaded over the insulating washer; however, such a closure has other serious consequences Defects. He is quite inadequate, and a leakage of the electrolyte and the Gas is not effectively prevented.

The invention relates to a dry cell with a metallic cup, the upper Edge is exposed, and with 'a charcoal doll, whose central electrode protrudes, and further with a preformed metallic or non-metallic closure. The disadvantages of the known arrangements described above are avoided according to the invention in that the closure is shaped in such a way that that a flat surface inclined towards the closure does not at the same time as the protruding one Electrode of carbon and the exposed edge of the cup can touch.

According to the invention, the dry cell can also comprise an insulating material a sleeve provided with an opening receiving the electrode, which see the metal Closure against the electrode is preferably insulated in that it is in a central opening formed in the closure is received.

The closure made of insulating material is according to the invention provided with a central opening, the diameter of which is smaller than the diameter of the electrode, and the iso-

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Liermaterial can have its own tension, so that the closure, when it is over or is pressed onto the electrode, in sealing contact with the electrode is stretched.

In a further embodiment of the invention, the sleeve is made of insulating material equipped with a peripheral flange spaced from its upper surface to ίο to hold a metallic fastener. According to the invention the exposed surface of the closure is provided with a layer of insulating material.

In one embodiment of the invention, the metallic closure is with a central one Provided opening, the diameter of which is less than the outer diameter of the Bushing that has internal tension, which, when the bushing is forced into the opening the edge of the metallic closure is embedded in the can.

The outwardly curved, convex shape of the closure according to the invention offers furthermore another advantage by creating an additional gas space under the arch, and this space communicates with the space above the cartridge.

The invention is illustrated in the drawing in some exemplary embodiments. Fig. Ι shows a view of the metallic cup, which is a clamp of the dry cell forms, before the closure.

Fig. 2 shows in a longitudinal section the Parts of the finished dry cell.

Fig. 3 shows in a partial section the upper part of a modified dry cell, in the metallic cap on the electrode is designed so that a longitudinal displacement the electrode is prevented.

Figure 4 is a top plan view of Figure 2 with parts removed for clarity.

Fig. 5 shows in a partial longitudinal section a modified form of the invention in which the Closure is made of metal.

Fig. 6 is a top plan view of Fig. 5 with parts removed for clarity, and

FIG. 7 shows the connection in an enlarged partial section in one embodiment between the sleeve around the electrode and a pail of metal closure.

The invention is shown in its application to so-called small dry cells, the usually used in conjunction with electric hand and flashlights; however, it can be used on any dry cell. A metallic cup 10, suitably made of zinc, according to fig. i- has a groove rolled into it, around an inwardly directed bead 12 near the edge 14 of the mug to form. A cartridge 16 is arranged within the cup, which consists of a suitable depolarization mixture prepared and in the usual way around a carbon stick 18 is shaped which protrudes upward. The cartridge is with suitable absorbent Covered material which is suitably secured by a cord 20 or the like. wrapped around the sheath ". The lower end of the sheathed cartridge is if desired immersed in paraffin and can rest on a disk made of insulating material 21. One metallic cap 22, for example made of brass, is on the upper or protruding Set the end of the carbon electrode with a snug fit. Preferably in the Sew "the bottom of the cartridge or in the bottom of the cup for an arrangement hit to center the cartridge. As shown, a rubber band 24 can secure the cartridge in the vicinity of its lower end and keep the same evenly around the wall of the cup 10 at a distance. The cartridge can also be known through a serrated cardboard bottom disk or in another known manner Way to be centered. Between the side surface of the cartridge 16 and the side wall The cup 10 contains a suitable electrolyte paste 26. The upper face this electrolyte is essentially flush with the top surface of the cartridge. on There is a ceresin seal on the top surface of the cartridge and electrolyte 28; however, the seal may also be any other suitable expedient Material consist; but it can also fall away.

Other dry cell constructions are equally applicable. the For example, depolarization mix may or may not be tamped into the cell an uncovered cartridge or any other suitable or desired construction to be used. '

After the cartridge has thus been inserted and sealed in the cup, put a lock on it. In the embodiments of Figs. 2, 3 and 4 has the Closure in the form of a disc or a lid 30 made of insulating material, for example Fiber, about 2.4mm thick in a flashlight cell. The lock has a central opening 32 of such a diameter that it fits over the metallic cap fits and takes them tight. The material of the closure 30 can expediently be such that it expands a little, after being squeezed over the cap 22 to firmly grasp the same. This kind of Assembly of the closure 30 and the cap 22 forms a gas-tight seal.

If the closure were only with the relatively porous carbon electrode in contact, the escape of gases through the porous carbon around the closure to be possible; but since the cap is not porous, no gases can escape.

The closure 30 rests on the bead 12, and the rim 14 of the cup 10 is as Flange 15 over the circumference 34 of the closure 30 pressed and clamps the same against the bead 12 and holds it under gas-tight Connection firm ..

The closure is shown convex or reversely curved; its perimeter or edge 34 is from the main or convex portion 36 of the closure to one below it Level offset. The convex part 36 may lie in a horizontal plane, as shown in FIG can be seen in the pictures, or be somewhat dome-shaped, and it forms between the Main section 36 and the circumference 3 4 a shoulder 38. The important feature consists in that the material of the closure is shaped so that a flat, against the veras finally inclined surface not at the same time the cap 22 of the protruding electrode May touch coal and the exposed rim of the cup, or in other words, that a tangential line to a clamp such as the cap 22 and the shoulder 38, outside the other electrode, e.g. B. the edge 15, will pass through. Similarly, a tangential line becomes the Edge 15 and shoulder 38 extend outside the cap 22.

By designing the closure 30 in this way, various important advantages are achieved. Primarily, the upwardly displaced or domed section 36 creates additional space below for in-cell generated gases, and therefore a smaller cell or longer cartridge can be used and an adequate gas space can be provided if desired. Furthermore, since the edge 15 of the cup lies below the horizontal plane which contains the main part of the closure, the cap can be of a smaller height, as can be seen in FIG. As is the case, it saves the amount of material that is a huge saving in mass production. The convex or domed upper surface enables it to encircle the brass cap so that the rim of the cap can be placed a little below it, as usual. Another, and probably the most important, advantage achieved by the convex lid is that the convexity preferably continues to a point closest to the perimeter and is at a point in a horizontal plane above the horizontal plane containing the inwardly curved edge of the cap . If, therefore, one cell is placed on top of another in a flashing lamp (xind these cells generally fit loosely in the flashing lamp) and the cell placed above it would be shifted a little, namely if its axis were to be at an angle to the axis of the cell, be careful .which rests, the bottom of the cell will touch the center electrode and the non-conductive top surface, but it will not touch the edge of the cap and short the cell. The bottom of the cell above is shown by the dotted line A in Fig. 3. This is an important advantage because dry cells in flashing lamps are often short-circuited and, as a result of this bridging, the electrode and the cup are destroyed. It should also be noted that if a cell should touch the edge, it cannot touch the central electrode at the same time, as can be seen from the dotted line B in FIG.

A modified embodiment of the invention is shown in FIG. In it is the metallic cap 42 on the central carbon electrode 18 with a slight bend 44 provided, which lies against the underside of the closure. So if the mistake 30 clamped onto the bead 12 by the inwardly pressed edge 15 of the cup 10 any inclination of electrode 18 will become axial or upward movement due to internal causes prevented by the flange 44, the immovable and inflexible shutter 30 is in contact. This extension can also serve as a stop, to limit the movement of the upper part during assembly.

Another embodiment of the invention in which the closure is made of metal is made of fiber is shown in Figs. This closure has expediently the desired one Convexity. The metallic shell or cup 10 is provided with a bead 12 like provided beforehand. If desired, a paper disk or disk 46 can be placed on the bead of fiber or other insulating material that has a central opening through which the stick of coal goes through. In some cases, however, this disc is omitted. In firm engagement with the brass cap with a gas-tight connection is an insulating washer 48 with a flange 50, on 1x5 which the edge of the central opening 52 of the convex metal closure rests. The convex The upper part is also curved in reverse and the edge is offset downwards so that it is on the bead rests on it or on the fiber disc by the inwardly pressed one Edge 15 of the cap to be clamped

can. If desired, the edge of the hole 52 can be bent downward, such as shown in Fig. 53 to pinch the fiber disc 48 and the effectiveness of the seal to increase at this point.

It is very desirable that the connection between the sleeve 48 and the metal closure 54 is tight. This can also be conveniently achieved by making the hole holds in the sleeve a little smaller in its cross-section than the electrode, e.g. B. the Cap 22. The hole in the closure 48 is just large enough to accommodate the barrel portion To accommodate SS of smaller diameter. If so, then the metal closure 48 on the Sleeve is set and the sleeve is then pressed down over the electrode, the resulting expansion of the insulating material calls the displacement of some Material protrudes over the edge of the metal in 60 (Fig. 7) so that the metallic edge is embedded in the material. A very tight connection is therefore achieved.

The convex closure 54 provides the additional gas space described with reference to the closure of FIG. 2 and also produces the shoulder 56 which prevents the bottom of a cell placed above it from touching the edge 15 and the central electrode at the same time, as it is punctured by the Line C is shown. The top may be enameled or otherwise coated with insulating material, as in 58, to effectively isolate an overlying cell from the metal of the closure. Thus, an overlying cell contacting the center metal electrode 22 and insulating coating 58 on the metal top is insulated and prevented from touching the edge 15 of the cap and being shorted out. As above, the shoulder also prevents a cell that may touch the edge 15 of the cap to touch the central carbon electrode as shown by the dotted tangential line D.

It can therefore be seen that a dry cell has been created that is lightweight and inexpensive can be produced and offers advantages not previously known in the art.

The person skilled in the art will of course make many changes in the composition, Can make shape and arrangement of the individual elements of the invention.

Claims (6)

Patent claims: i. Dry cell with a metallic cup, the rim of which is exposed at the top and is arranged at least in the plane of the upper surface of the breech edge and with a cartridge, its middle Electrode protrudes, and continues with a preformed, metallic or Non-metallic closure, characterized in that the closure is shaped in such a way that a flat, against the Closure inclined surface does not simultaneously have the protruding electrode of the carbon and can touch the exposed rim of the cup. 2. Dry cell according to claim 1, characterized by one made of insulating material existing, provided with an opening receiving the electrode, the metal closure against the Electrode preferably insulated in that it is in a central, in the closure formed opening is received. 3. Dry cell according to claim 1, characterized in that the closure made of insulating material is provided with a central opening, the diameter of which is smaller than the diameter of the electrode, and 'own the insulating material Has voltage, so that the closure when it is over "or on the electrode is stretched into sealing contact with the electrode. 4. Dry cell according to claim 2, characterized in that the sleeve made of insulating material with a circumferential flange, which is from their upper surface has a clearance to hold the metallic fastener. 5. Dry cell according to claim 2, characterized by a layer of insulating material on the exposed surface of the closure. 6. dry cell according to claim 2, there too characterized in that the metallic closure is provided with a central opening the diameter of which is less than the outer diameter of the bushing, which has internal tension, whereby, when the can is wedged into the opening, the edge of the metallic breech is embedded in the can. 1 sheet of drawings