DE1184826B - Device in accumulator housings or formation boxes for receiving and power connection of accumulator plates - Google Patents

Description

Device in accumulator housings or formation boxes for receiving and for the power connection of accumulator plates. The invention relates to a device in accumulator housings or formation boxes for receiving and power connection of the accumulator plates with spaced apart, open on one side Guides into which the accumulator plates can be inserted and in which they are held detachable.

This arrangement has the advantage that on the otherwise between the electrodes arranged separators can be dispensed with, which not only results in a reduction the weight, but also an increase in the capacity of the accumulator results because the movement of the ions in the electrolyte is not hindered by the separators will.

In a known embodiment of an electrical accumulator are the electrodes can be pushed into grooves provided in the housing. The electrode plates same polarity are in this construction with a common pole bridge soldered or welded, which in turn carries the pole heads, which the Penetrate the housing cover, which is sealed by pouring it with potting compound.

However, this design has disadvantages. For example, if a If the electrode plate is damaged and if it has to be replaced, the potting compound must be used removed from the lid, whereupon it can be lifted. The electrode packages are now pulled out of the housing and the defective plate from the terminal bridge solved. When soldering on, however, the other neighboring plates also loosen, see above that replacing defective electrodes is time consuming and costly.

In other known designs of electrical accumulators are the electrodes can also be pushed into and with grooves arranged in the housing connected busbars arranged above the electrodes. The disadvantage here is that for the exchange of an electrode plate either all electrodes are removed or the busbars must be disconnected from all electrodes.

It is also known to insert the electrodes in frames that pass through Separators are separated, can consist of metal coated with insulating material and, held together by carriers, brought together into the accumulator housing will. Each electrode is also firmly connected to a busbar, so that the exchange of a single electrode is very cumbersome.

The disadvantages of the known constructions are according to the invention avoided that the guides contact devices for electrical connection with the accumulator plates, the contact devices of the individual Guides of each cell according to the polarity of the accumulator plates to be inserted with each other and with the terminals or with the contact devices of Neighboring cells are connected in an electrically conductive manner. With this arrangement, therefore at the same time as the electrode is pushed into the guide, the electrical connection manufactured so that any soldering or welding work can be omitted and the repair costs be reduced.

Since the power supply to the plates is provided via contact devices provided in guides takes place and the plates can therefore be made relatively thin-walled, there is an advantageous embodiment of the invention is that the contact devices communicate with electrodes made up of at least two spaced apart arranged and connected to a unit plates are constructed. So that results a considerable increase in the capacity and thus the performance of Batteries compared to the known designs with single plates.

According to the general opinion, it is expected that that when there are homopolar plates especially with a correspondingly small distance oppose the facing plate surfaces electrically not essential matter. However, it could be determined that these This view is not confirmed by practice. So show z. B. Electrodes that are build from two plates, almost double the capacity compared to single plates.

Based on this fact, according to the invention there is the possibility of to build a battery with a correspondingly high capacity in a very space-saving manner, what in most cases is to be rated as a great advantage.

A good contact and thus a small contact resistance ensure, according to a further characteristic of the invention, the electrodes from an alloy of 5 to 80 parts by weight aluminum, 20 to 95 parts by weight Lead and up to 5 parts by weight of tin. This alloy has due to its Light metal content has a lower specific weight than lead, so that weight reduction is also possible by using this electrode material is.

In the manufacture of this alloy, aluminum is first crushed and melted. This melt will be 5 to 30 parts by weight or sodium carbonate other carbonates added and mixed well. In this mass is now under constant Stirring the lead melted in small pieces, whereupon the appropriate stirring is also carried out Amount of tin is added.

The mass, heated to about 700 to 750 ° C, is poured into the mold and immediately cooled in a cold water bath. To keep a homogeneous structure, the mass must remain in the water bath until it has completely cooled down.

The proportions of the alloy components depend on the desired Resistance values as well as the desired porosity and other possible ones Properties.

The invention is explained in more detail with reference to the drawings.

F i g. 1 shows a section through an embodiment of the invention; F i g. 2 is a view of a guide frame with the electrode plate partially inserted; F i g. 3 and 4 illustrate sections along the line III-III in FIG. 2 and show different embodiments of the guide; F i g. 5 shows a section by an electrode plate according to the line V-V in FIG. 2; F i g. 6 and 7 show two details on a larger scale; F i g. 8 is a pictorial representation of a another embodiment of the invention; F i g. 9 shows the in FIG. 8 shown Accumulator in plan with the cover removed and FIG. 10 the bottom view of a Battery cover; F i g. 11 shows a partial view of a storage battery with insulating inserts in the guides in the plan in section; F i g.12 shows a section through the plate edge and the guide frame surrounding it in a special design; F i g. 13 and 14 are a section through a double and triple panel; F i g. 15 illustrates a housing grommet embedded in a housing wall on average; Figures 16-20 illustrate another embodiment of the invention with arranged in the lid; with . Guides provided with contact devices; F i G. 16 shows the bottom view of the lid, FIG. 17 a section through the cover along plane XVII-XVII of FIG. 16 and FIG. 18 to 20 some details the holder of the lower plate edges; F i g. 21 finally shows a forming box.

In FIG. 1 shows an electrical accumulator in which the electrode plates 1 are held in the guide frame 2. The guide frame 2 have tabs 3 which are provided with holes. The tabs of the lead frames of the positive and negative electrode plates are offset. This can be done, for example, in that the frames are used the wrong way round for one polarity. The holes 4 of the tabs are penetrated by bolts 5, which connect the frames of the same polarity to one another in an electrically conductive manner. The frames are connected to form a fixed stack by, in particular, metallic spacers provided between the plates. The bolts 5 are connected to the connection terminals or to the pole bolts 6.

The guide frames 2 are inserted into the accumulator housing 7 and are held in place by extensions 9 of the cover 8. The appendages 9 are with elastic strips, for. B. with soft rubber strips 10 provided. Between the cover 8 fixed by screws 12 and the housing 7 is a seal 11 made of soft rubber or the like. Arranged.

The guide frame 2 can, for. B. made of iron, non-ferrous metal or their alloys or from insulating material, e.g. B. od plastic, hard rubber. Like., Are. In the latter case, a rail made of conductive material is arranged in the frame, which ensures the connection to the electrode plate. In the F i g. 2 to 4 show several designs of guide frames with associated electrode plates, wherein according to FIG. 3 the electrode plate is provided with a guide bar which is held in a corresponding groove in the guide frame. In the embodiment according to FIG. 4 the guide bar is provided on the frame, while the groove is provided in the electrode plate. The guide bar can, for. B. have a square, rectangular, circular or rhomboid-shaped cross section. The F i g. 3 and 4 each show two different exemplary embodiments of the guide frame, namely the metal version in the upper part and the guide frame 2 'made of insulating material with an inserted metallic rail 13 in the lower part F i g. 5 executed in a zigzag shape in longitudinal section. For these reasons, however, the plate can also be provided with a corrugation. -The cover fastening screw 2 is supported on a washer 14 (FIG. 6). The screw 12 is located in the threaded bore 15. The purpose of the inner thread of the washer 14 is to hold the screw in place and, in conjunction with an eyelet in which a chain or the like can be attached, to protect the screw from loss.

This is to prevent the acid from escaping around the pole bolt with two annular grooves 16 provided in which matching discs 26 made of rubber or the like. Are introduced. About this rubber washer 26 is again a rubber washer 17, which rests directly on the pole bolt, is placed. The rubber washers are with screw nuts 18, for example made of light metal, against the hard rubber cover 8 pressed. The in the F i g. 8 and 9 shown differs from that embodiment described above, as the contact rails 19 for the electrode plates 2 are inserted or embedded in grooves provided in the housing 7.

The connecting conductors 20 and the terminals 21 are also arranged in the housing wall. In the interest of a clear presentation are in Figs. 8 and 9 no electrode plates are used in a cell. To change The cover is simply removed from the electrode plates, after which the electrode plates 1 can be exchanged easily. Between the cover 8 and in the housing 7 including the cell partition 7a is a seal 22 made of soft rubber od. Like. Arranged.

The in F i g. The embodiment shown in FIG. 8 is also excellently suited for forming accumulator plates. In this case, however, a housing is expedient 7 is used, which has no cell partitions 7a. In addition, one becomes for the Connect the forming process the plates 1 in parallel. Such an embodiment is shown by F i g. 21.

From the in F i g. 10 illustrated embodiment of the cover 23 is the Arrangement of the extensions 9 can be seen. There are two extensions for each cell provided on both sides of the normal to the electrode plates A plane of symmetry are arranged. In addition, from this figure, the rubber seal, afford 23a to 23! C can be seen.

In Fig. 11 only one cell of a multi-cell accumulator is complete shown. This consists of a common housing 23 made of an insulating material, z. B. hard rubber. Each cell has a positive center plate 24 and two on both Sides of this plate arranged plates 25. On the opposite, the front sides 26 of the battery plates 24, 25 facing housing walls are metallic plates 27 are provided, which have grooves 28 open towards the accumulator plates 24, 25. Insulating inserts 29 are arranged in alternately opposite grooves 28, an undesired contact to the metallic plate 27 of wrong polarity prevented.

In addition, in the case of the FIG. 11 illustrated embodiment the power supply lines to each metallic plate 27 laterally outward through the Wall of the housing 23 carried out. The connection of the individual cells of the accumulator takes place by means of metallic strips 30. The fact that the pole connections of all cells are outside, in addition to the entire battery voltage, corresponding partial voltages can also be used be removed. It is of course also possible to make the electrical connection of the to lead individual cells in the housing.

F i g. 12 illustrates an advantageous embodiment of making contact between the edge of the plate and the guide frame, both the edge of the plate 31 and the inner surface of the guide frame 32 are roughened, specifically in the special case with a corrugation 33 which runs in the direction of insertion. It goes without saying also possible to train the roughening in other ways, for. B. in the form of a Knurling or cording or in the form of hemispherical elevations, if one relatively high surface roughness is desired.

It is also possible to have only the edge of the plate or only the inner surface to roughen the guide frame and the mating contact surface with a smooth surface to train. In the example shown, the connection is made by soldering. The metal profile strip 42 and the bolt 44 can, however, also consist of one piece.

In the case of the FIGS. In the embodiments shown in FIGS. 13 and 14, a plurality of plates are each combined to form a plate pack. The individual plates 34 to 36 are connected to one another at the plate edge via metallic spacer elements 37 and 38, respectively. In the case of the double plate according to FIG. 13, the spacer elements 38 are extended beyond the plate edges. The protruding part 39 is intended to be brought into electrically conductive connection with the contact devices provided in guides in order to establish the connection of the plate assembly. In the execution according to FIG. 14, the middle plate 36 itself protrudes at 36 'over the edge of the two remaining plates 34 and 35 and has the same function as the part 39 according to FIG. 13. The design as a multiple plate can also be used to advantage if, instead of the previously described releasable contact, the connection to the power supply lines or leads is made by soldering, welding or manufacturing in one piece.

The in F i g. 15 shown housing lead-through bolt is arranged in a side wall 40 of the battery housing. Only the essential parts are illustrated. The guide frame designed as a metal profile strip 42, in which the electrode grid plate 43 is inserted, rests on the inside 41 of the side wall 40. A bolt 44 passes through the side wall 40, the square part 45 of which is aligned with the inside 41 of the housing wall 40 and is in electrical contact with the profile strip 42. In the balancer 44 a bore 46 with a thread 47 is provided, into which the connecting terminal 48 is screwed. The in F i g. The cover 49 of a rechargeable battery shown in FIG. 16 has an oval shape, as is customary in many flashlight batteries. The accumulator has two cell spaces, each of which has one positive and two negative plates. In the cover 49, grooves 50 are provided in accordance with the arrangement of the plates, in which metallic profile strips 51 with a U-shaped cross section are inserted. When the cover 49 is placed on the housing, these profile strips 51 come into an electrically conductive connection with the electrode plates. Corresponding lines 52 for connecting the negative plate contacts to one another or to the positive plate contact of the neighboring cell are also provided in the cover 49. The battery is connected at 53 a and 53 b by screws, which can be connected directly to the top of the cover 49 with brass strips. The connection can, however, also be made by soldering or consist of one piece with the connection solderings 52. In the middle of the cover 49 a web 54 is provided which cooperates with the central wall of the housing and ensures the separation of the two cell spaces.

From Fig. 18 it can be seen that the electrode plates 55 are not sit directly on the housing base 56, but for the resilient mounting of the plates 55 a rubber insert 57 is interposed therebetween. The in the F i g. 16 to 18 shown Embodiment of the invention with arranged in the lid guides and corresponding Contact facilities in these guides isn't just on flashlight batteries applicable, but has also proven itself with larger accumulators. Can also be a Variation consist in that the connections go through the side wall of the lid, and in particular, the contact devices do not necessarily have to be in guides of the Be arranged cover. If there are guides in the housing walls, so can the contact devices on the cover in the form of flat bars, d. H. without governing bodies be executed.

The in F i g. 18 shown holder of the lower plate edges is particularly suitable for cells with paste-like electrolytes. Becomes more fluid Electrolyte used can. one in the F i g. 19 and 20 holder shown Select. Dirt webs 58 are provided on which rubber strips 59 are placed are, so that a resilient mounting of the electrode plates 55 is guaranteed.

The forming box according to FIG. 21 shows a structure similar to that in FIG. 8 shown accumulator. The cell partition walls are missing and the connecting conductors are designed in the form of two busbars 60 . The electrode plates 61 are held in guide frames 62 with a U-profile and are inserted into grooves 63. In the pushed-in state, the plates 61 sit with the guide frame 62 on dirt webs 64, the upper plate edge 65 reaching a level which runs below the lower edge 66 of the contact rails 60 . The guide frames 62 enclose the electrode plates 61 in such a way that one end of the frame 62 is flush with the upper edge 65 of the plate 61, while the other end of the frame 62 projects over the upper edge of the plate 65 and depending on whether it is a positive or negative plate acts, is in electrically conductive connection with the corresponding contact rail 60.

The invention is not restricted to the examples shown. Rather, numerous modifications are possible within the scope of the invention. The new The arrangement is applicable to both lead and steel batteries or the like.

Claims (15)

Claims: 1. Device in accumulator housings or formation boxes for receiving and power connection of the accumulator plates with spaced apart guides open on one side into which the accumulator plates can be inserted and in which they are detachably held, characterized in that the guides (2, 2 `, 50) have contact devices (19, 28, 42, 51, 62, 13) for electrical connection to the accumulator plates (1, 24, 25, 34 to 36, 55, 65), the contact devices of the individual guides of each cell correspondingly the polarity of the accumulator plates to be inserted are electrically conductively connected to one another and to the connection terminals (6, 21) of the device or to the contact devices of the neighboring cells. 2. Device according to claim 1, characterized in that that the guides (2, 2 ') made of insulating material, for. B. made of plastic or hard rubber, exist in which guides the contact devices, e.g. B. metallic rails (13), are attached. 3. Apparatus according to claim 1 or 2, characterized in that the guides are provided in a manner known per se in the walls of the housing (7) and the contact devices (19) and their connecting conductors (20) are embedded in the walls or attached to them (Fig. 8). 4. Device according to one of claims 1 to 3, characterized in that the guide frame (2, 2 ') are constructed from metal profile strips. 5. Apparatus according to claim 1 or 4, characterized in that the electrically conductive, in particular metallic guides (28) are arranged on opposite plate edge sides (26) and form a busbar on each of these sides, wherein according to the polarity of the plates (24, 25) alternating insulating inserts (29) are provided in the guides (FIG. 11). 6. Device according to one of the preceding claims, characterized in that the contact devices (32) and / or the accumulator plates (31) are roughened on the mutual contact surfaces (FIG. 12). 7. Device according to claim 6, characterized in that a corrugation at the contact points is provided. B. Device according to claim 7, characterized in that the Corrugation runs in the direction of insertion. 9. Device according to one of the preceding Claims, characterized in that the contact device with electrodes in Connection are made up of at least two spaced apart and plates (34 to 36) connected to form a unit are constructed (F i g. 13, 14). 10. The device according to claim 9, characterized in that the distance between the individual Panels corresponds approximately to the panel thickness. 11. Device according to one of the preceding claims, characterized in that the accumulator plates (1) or the guide frame (2) through transversely to the planes of the same extending, in particular elastic extensions (9, 10) with the interposition of seals (11) the housing (7) attachable cover (8) are fixed (FIG. 1). 12. Device according to one of claims 1 to 11, characterized in that the housing cover (49), in particular in guides (50), contact devices (51) are provided (F i g. 16, 17). 13. Device according to one of the preceding claims, characterized in that that the end poles (21) are arranged on the side walls of the housing (7) and this with bushing bolts enforce that with the contact facilities or whose connecting elements (20) are in direct electrical contact or thus consist of one piece (Fig. 8). 14. The device according to claim 13, characterized in that, in the case of a housing made of insulating material, the housing lead-through bolt (44) is cast into the housing wall (40) in a known manner (FIG. 15). 15. Device according to one of the preceding claims, characterized in that that the electrodes which can be pushed into the guides are made of an alloy from 5 to 80 parts by weight of aluminum, 20 to 95 parts by weight of lead and up to 5 parts by weight Made of tin.