DE857220C - Collector battery, especially alkaline accumulator - Google Patents

Description

Collector battery, especially alkaline accumulator When using Rechargeable electrical storage batteries is a structure in various! cases of the collector is advantageous in which the collector cells are coaxial in the manner of stick batteries are arranged. In contrast to the use of dry cell batteries with several coaxially arranged elements is in such a structure for chargeable electrical Collectors present the difficulty that each individual collector cell for replenishing must be accessible with electrical electrolyte fluid, and in the event of gas development this gas must be able to escape in the cell.

The invention solves the mentioned difficulties in the coaxial Arrangement of several cells of a rechargeable electrical collector battery by that the cells used in the rod housing are separated from one another by 'I'remnwand are and di: partition walls between dien effective gas outlet openings in the event of excess pressure Adjacent electrolyte compartments of the cells form. On the rod housing cover and / or the bottom of the battery is a common gas outlet opening that opens into the open present, -the filling opening shared by all cells arranged one behind the other for the electrolyte fluid can be. It does not matter whether all cells are arranged in a rod housing or whether the housing of the individual cells by liquid-tight assembly are combined to form a rod housing.

The ones provided on the dividing walls between the individual cells Means for connecting the electrolyte chambers of the cells in the presence of excess pressure in one or more cells or for topping up the electrolyte fluid various be. The partitions can be capillary tubes, valves, elastic tap hole plates or the like. Form or be combined with it.

If the cells are made up of individual rod housings, one becomes the Make the housing of the cells so that when they are put together the bottom of the housing one cell is the lid of the housing of the other cell and only the top one of the liquid-tight assembled Yellen with an additional lid will. The housing of each cell forms an overflow for the electrolyte liquid acting longitudinal channel opening outwards at the bottom of the housing, with which the housing interior, one cell is connected to the interior of the housing of the attached cell. Through this channel, the connecting lines for the electrical One behind the other, the cells must be carried along. This ensures that the cells formed by individual vessels are connected to one another with their interiors are 'and the filling and degassing opening present on the upper inserted cover is effective for all cells arranged one behind the other. The overflow for them Electrolyte fluid acting longitudinal channel, which is also centered in the housing arranged standpipe can be formed, determined when filling electrolyte liquid the fill height for each cell. It is assumed that e.g. B. three cells with the characteristics of the invention are composed. When filling electrolyte fluid in the filling opening on the top cover becomes the top cell with electrolyte liquid filled until the same through the overflow channel into the next one below Cell expires. The second cell fills up to that with electrolyte fluid level determined by the overflow of this cell. With further filling runs the liquid in the third, lowest cell, whose overflow at the cell bottom into Free flows. If the third cell is also sufficiently filled with electrolyte fluid, ' so the liquid runs off through the overflow of this cell and when it emerges from Electrolyte liquid at the bottom opening of the lower cell is indicated, that all cells of the collector battery are sufficiently filled with electrolyte fluid are. The filling opening on the lid of the top cell is closed, and for Avoidance of a disadvantageous leakage of electrolyte liquid at the bottom outlet the bottom cell is the mouth of the standpipe hole on the housing of this cell or the longitudinal duct of the housing liquid-tight, but gas-permeable, Removable, elastic bottom cap attached. The collector battery is now ready for use. The connection means for the power take-off are on the cover plate of the topmost cell arranged. In the lowest third cell, it can also be on the one opening into the open air Overflow can be dispensed with when filling the electrolyte liquid into the individual cells are proceeded accordingly. When using elastic Plastic housings, the cell spaces z. B. like a suction ball with electrolyte liquid- can be filled through the top opening of the lid. It is also possible to use the longitudinal channels to make so tight in the cell housing or the centrally arranged standpipe; that they act as capillary tubes. In this case, the filling takes place one behind the other Cell spaces with electrolyte liquid by suction in such a way that to the top Lid opening is connected to a suitable suction device and the bottom opening the capillary tube of the lowest cell after removing the cap into a vessel is immersed in electrolyte fluid. When sucking the air out of the one behind the other arranged cell vessels connected to one another by capillary tubes the electrolyte fluid through the capillary tube of the lowermost cell; until this is filled, and then through the capillary tube of the middle cell into the same. is the middle cell is also filled, as the suction continues. the liquid is sucked through the capillary tube of the first cell and it enters when all cells are filled with electrolyte liquid, at the suction port of the upper end cover the end. The suction opening on the lid is closed like a valve in the event that that gas develops in one of the cells, which flows through the capillary tubes of the one in front of it ; Cells rise to the top and exit at the valve of the upper end cap.

For the creation of beneficial forms of use of the invention The collector stick battery is rolled into the cell casing to be wrapped in a tightly-packed manner or use sheet-like or foil-like electrodes layered in packages. on in this way, especially when using thin sheets or films Sintered framework electrodes, the coils or packets on the inner wall of the cell housing be used tightly in this housing, and it only needs a proportionate small additional electrolyte space to be provided in each cell. In the The use of electrode coils is the arrangement of a standpipe-like overflow favorable in the cell because this standpipe can penetrate the coil like a core.

To achieve a world-wide approachless approach to the Cell housing one becomes the housing of each cell for the formation of a sleeve-like The conical connection tapers conically on its bottom side and the housing bore the lid side form a conical widened shape. They are preferably made of transparent plastic existing cell housings against each other liquid-tight, z. B. by gluing or welding, connected to one another. So it forms the coaxially from several arranged cells consisting of a rechargeable electrical collector battery in itself solidified rod cell unit, the round, oval, rectangular or any other may have a suitable cross-section. The handling of this multi-cell collector battery is the same as with just one rod cell.

It is advantageous to eat several in a cylindrical stick battery case Electrode packages or Use electrode coil arranged coaxially and cuff-like elastic discs as partitions for the division of the cells to be used, which are inserted into the rod housing bore with the appropriate preload are. It is a well-known characteristic of such collar-like washers that they if the pressure rises in one direction - and if the pressure rises in the opposite direction Act like a valve in the direction. When using such sleeve-like partitions for the division of the cells among each other is thus achieved with simple means, that the cells are sealed against each other in a liquid-tight manner and when the pressure rises in the cell thus delimited by the valve action of the cuff, the compressed gases into the next cell until it reaches the one on the cover of the stick battery provided gas outlet opening and escape there into the open. Also at this structure of a multi-cell stick collector battery. is the lowest at the bottom Cell a suction opening closed by a valve for filling the cell with electrolyte fluid present. In the same way as previously described, a suction device is used for this filling on the cover socket of the top cell connected and the cuff-like partitions act when sucking in the Electrolyte fluid also like a valve until the pressure equalization within the Cell spaces are available again and the cuff edges under the pressure the electrolyte liquid sealing against the inner wall of the common rod housing of cells. The electrical connection lines are expediently through the Inner cavity of the electrode coil of each cell guided, and it can be attached to these Cables, the sleeve-like, elastic partition walls must be secured in an alkali-proof manner, so that they are kept in their predetermined position.

For the formation of multi-cell collector stick batteries one is called Partitions insulating intermediate layers between two layers formed by discs or plates Arrange electrodes of unequal polarity. Each of these electrodes belongs to one of the two cells divided by the partition. Are the electrodes, e.g. B. by Rivets, attached to the partition, the rivets also serve as current-conducting ones Connection for the electrical series connection of the cells. As partitions In this case, you will advantageously choose elastic plastic disks, which through Gluing or the like to the inner wall of the rod housing is alkali-tight are. So that formed by inserting the partitions into the collector housing Cells within the meaning of the invention for the escape of gas or for one another related to the replenishment of electrolyte fluid, one is going to the Electrodes attached to partition walls are provided with holes through needle holes in the elastic partition are closed in a valve-like manner that only when the pressure rises in one cell the gas causing this increase passes into the next cell, until it enters the open at the valve closure of the topmost cell cover, or that when sucking in electrolyte fluid the same through the tap hole opening in the Partition wall is sucked from the lower cell into the next adjacent upper cell. It is necessary for the formation of a sufficient supply of electrolyte in the individual cells Of particular advantage, the insulating interlayers between the electrodes are unequal To choose the polarity of a cell made of very highly absorbent material.

With the invention it is possible to have very many in one rod housing to arrange electrically one behind the other cells, and it can thereby be chargeable Collector batteries are created in stick form with high clamping voltage, as they z. B. advantageously used as anode batteries in the operation of high-frequency receivers Find.

Embodiments of the invention are shown in FIGS. I to 5 of the drawing shown.

In Fig. I, the rechargeable electrical collector battery is formed by the coaxially arranged round rod cells i, 2 and 3. The cells i, 2 and 3 are put together like a sleeve, and the conically tapered part 4 of the housing engages in the conically widened part 5, the housing bore which is open at the top. At the connection point, the cells are bonded to one another in a liquid-tight manner. Each cell housing i, 2 and 3 forms a standpipe 6 arranged centrally in the housing, the height of which determines the filling level for the electrolyte liquid in the housing. Each standpipe 6 is provided with two longitudinally penetrating bores 7 and 8 which open out into the open at the bottom 9 of the housing. When the housings i, 2 and 3 are assembled in a liquid-tight manner, the bottom of the housing 2 forms the cover for the housing 3, which is open at the top, and the bottom of the housing i the cover of the housing 2, which is also open at the top , 2 and i connected to one another, and they are connected to the outside air through the bores 7 and 8 of the standpipe 6 of the lower cell 3, which open into the open air, when the elastic end cap io is removed. The cell i is closed on the housing side, which is open at the top, by the cover ii inserted into the conical extension of the housing bore. 12 is the end screw for the electrolyte filling opening of the cover ii and 13. 14 are the contact connections for the rod cell, lenbatterie. These contact connections are formed by screw nipples firmly inserted into the cover ii, to which connecting lines can be clamped in a known manner with a union nut. The nipples 13, 14 are bored through lengthways, and the connecting wires of the cell electrodes are led to the outside through these bores. The connection to these electrode connections is made in a simple manner by squeezing the thin-walled nipple neck 15 together. To start up the collector battery, electrolyte fluid is poured in through the filling opening in the vessel lid ii until it emerges at the bottom opening of the standpipe bores of cell 3 when the cap is removed, that is, cells i, 2, 3 are filled with electrolyte liquid to the level determined by the standpipes 6 acting as an overflow. One or both of the longitudinal bores 7 and 8 are also used for guiding the electrical connecting lines between the electrodes of the cells 1, 2 and 3 arranged one behind the other. The anode connection of the lowermost cell 3 is guided in the form of a connecting wire through the longitudinal bores 7 of the cells i and 2 as far as the connection nipple 13. The cathode of cell i is connected to nipple 1 [. The connecting lines for the electrical series connection of cells i, 2 and 3 are either also routed through the longitudinal bores 7 of the standpipes 6, insulated from the anode connection, or they are located in the other standpipe bore B.

It is within the scope of the invention for the formation of the lid i i to choose other solutions than those described, and it can use the contact connections the collecting battery and the closing means acting as a valve for the electrolyte filling opening just like the connection between the cover and the housing wall of others Be kind. A simple closure for the filler opening is z. B. given if a rubber cap is placed or pulled on the tubular extension 17, which acts as a valve with a tap hole.

For the Bodsnabschlusskappe io it is crucial that this is a safe Completion against the leakage of electrolyte liquid with any handling the accumulator battery forms. You can with its bead ring 16 in the manner of a spring ring engage in a groove in the housing if this is not due to their elasticity alone is held securely on the lower housing of the cell 3 with sufficient clamping action.

In the embodiment according to FIG. 2, there are several cells 18, 19 of one common rod housing 20 is formed. As partitions between the cells are the cuff-like disks 21 made of elastic material are present. 22 is an in the housing with inserted spacer ring. The partition 2r is caustic fixedly arranged on the connecting lines 23 and thereby in connection with the Spacer ring 22 held in place: the bottom of the rod. housing 20 forms the screw cap 24 .. For filling the cell spaces with electrolyte fluid the hole 25 is provided and this hole 25 is through the clamped with the bottom 24 Rubber washer 26 closed with the tab 27 which acts like a valve. In the event of gas formation, So if the pressure increases in the ico cell, this pressure acts on the edge of the cuff Partition wall 2 i, and there is the sealing pressure between this edge and the inner wall of the housing 2o reduced or canceled until the outflow of the gas in cell 18 restored the pressure equalization between cells 18 and i9 is. Brim filling cells 18 and 19 with electrolyte fluid will make the case 20 with the bottom opening 25 immersed in electrolyte liquid, and the Liquid through the valve action of the tab 27 and the cuff washers 21 by means of one connected to the cover opening provided for this purpose in the cell housing 20 Suction device sucked into the cell spaces.

The multi-cell structure of a collector stick battery is shown in FIG. 3. In the rod housing 2 @ 8, the bulged disks 29 are inserted in an alkali-tight manner with the inner wall of the housing. Each bead washer 29 forms a partition between two cells 3o. The electrode disks 31 and 32 are of unequal polarity and they are carried by the bead disk 29 by means of the rivets 33, which act as an electrical connection between two adjacent cells 30. 3,4 is an insulating interlayer with great absorbency. The bead washers 29 are made of elastic material, and they cooperate. a -the gas outlet opening 35, 36 in the electrodes, 31 and 32 connecting taphole due to its high elasticity as a valve. For the filling of the individual cells with electrolyte liquid by suction, the housing bottom 3, 7 is also provided with a suction opening 38 in this embodiment, which is closed by the ball valve 39 to prevent liquid from escaping. This multi-cell rod housing is also closed in a suitable manner with a cover at the top. The electrical connections will expediently lead out on the bottom and cover side of the housing. It is of course also possible to provide the connections forming the collector connection embedded in the housing and to arrange both connections on the cover or bottom side or at some other suitable location on the housing.

The collector battery designed according to the invention is also suitable many other uses in a particularly convenient manner for the Operation of electric bicycle lights with a rechargeable electrical power source, which is used in the form of a collector stick battery in the seat tube of the bicycle or is attached to the frame of the bicycle in any other customary manner.

It is within the scope of the invention, the particular advantage of only one gas discharge opening opening out to the outside even when several are arranged next to one another Realize collector cells through the appropriate application of the features of the invention. The exemplary embodiments also reveal advantageous principle solutions for such applications.

Claims (7)

PATENT CLAIMS: i. Collector battery, in particular an alkaline accumulator with sheet-like or foil-like electrodes, characterized in that the cells of the battery are interconnected to form common gas discharge paths, which can also be the filling paths for the electrolyte fluid, and the battery has a gas outlet opening common to all cells or electrolyte filler opening. 2. collector battery according to claim i, diadurdh characterized in that the cells are separated from one another by partitions which themselves or by means of capillary tubes, valves, elastic needle-hole plates arranged on them or the like, with overpressure effective gas outlet openings between the adjacent ones Form electrolyte spaces in the cells. 3. collector battery according to claim i or 2, characterized characterized in that the cells are formed by rod housings, of which when they are put together the bottom of the housing of one cell the lid of the housing of the other cell forms and the housing of each cell with an overflow for the electrolyte liquid acting longitudinal channel opening outwards at the bottom of the housing, in particular a capillary tube, is provided with which the housing interior of the one cell to the housing interior connected to the attached cell. 4. collector battery according to claim 3, characterized characterized in that the overflow from a zen -trisch arranged in the housing standpipe is formed. 5. collector battery according to claim 3 or 4, characterized in that that the connecting lines for the electrical cascading of the cells are carried along by the overflow channels. 6. collector battery according to claim 3 or .4, characterized in that the electrical connection lines for the electrical Series connection of the cells in the walls of the overflow pipe, capillary pipe or housing are embedded. 7. collector battery according to claim 4, characterized in that that from the standpipe several longitudinal channels for filling the electrolyte liquid into the cells, the escape of gas from the cells and for the conduct of the electrical Connecting lines are formed between the cells. B. collector battery after one of the preceding claims, characterized in that the open at the top Round rod cell housings are put together like a sleeve. G. Collector battery after Claim 8, characterized in that the housing of each cell for the formation of a sleeve-like conical connection tapers conically on its bottom side and the housing bore is widened conically on the cover side. ok Collector battery according to one of the preceding claims, characterized in that the lowermost cell with a placed on the housing, the mouth of the standpipe bore or the housing longitudinal channel is liquid-tight, removable, elastic, gas-permeable bottom cap is provided. vi. Collector battery according to one of the preceding claims, characterized in that in the cell housing Sheet-like or film-like, rolled up tightly into wraps or layered into packets Electrodes are used. 12. Collector battery according to claim i odier 2, characterized characterized in that several electrode packages in a cylindrical stick battery housing or electrode coils are inserted coaxially and the partition walls for the department of the cells are cuff-like, elastic discs that, when the pressure increases, in the cell thus delimited, valve-like for the discharge of the compressed gases into the next Cell work. 13. Collector battery according to Artspruch 12, characterized in that the elastic discs on the electrical connection lines between the electrodes neighboring cells are attached alkali-proof. 14. Collector battery according to claim i or 2, characterized in that the partitions are insulating intermediate layers between two electrodes formed by disks or plates of unequal polarity and belong to different, neighboring cells and the electrodes, e.g. B. by Riveting, for the electrical series connection of the cells with the rivets electrically connected, carried by the partition. 15. Collector battery according to claim 14, characterized in that the electrodes have holes as a connection between the cells for withdrawing the gases from the cells or for filling of electrolyte fluid into the cells, which through needle holes in the elastic partitions are closed like a valve. 16. Collector battery after Claim 14 or 15, characterized in that the partitions are made of elastic Plastic disks, e.g. B. Polyäthylensoheiben, formed with a bead and through Glue to the inner wall of the also made of plastic, for. B. transparent Polystyrene, existing housing are bonded alkali-proof. 17. Collector battery according to one of the preceding claims, characterized in that the battery housing on its underside by a removable cap or base, e.g. B. screw cap or screw base, is closed with a suction valve opening. 18. Collector battery according to claim 17, characterized in that the suction valve is operated by a or the bottom of the case fastened or clamped with this elastic strap, z. B. rubber strap is formed, which is sealing under the caustic or gas pressure against the inside of the cap or housing bottom provided with a bore lays. i.:. Collector battery according to one of the preceding claims, characterized in that that the top cover of the housing with a filling or degassing opening is provided for the cells arranged one behind the other or next to one another and the Contact connections of the collector battery carries. 20. collector battery according to claim i9, characterized in that the contact terminals of inserted in the cover, pierced screw nipples are formed and led out through the nipple bore Electrode connections from the outside, welded, soldered or the like to the nipple. 21. Collector battery according to claim i9, characterized in that the Kunststoffalr Closing cover of the housing forms tube-like approaches that after threading the electrode connections, e.g. B. by heat treatment, be tightly sealed. 22. collector battery according to claim i9, characterized in that the filling or Degassing opening from a tube-like extension of the plastic housing cover is formed and by a rubber hat with a needle hole placed on the approach is closed like a valve.