DE2104918A1 - Chemoelectnsche battery and processes for the production of such a battery - Google Patents

Description

DR. F. E, TRETTIN

PATENT Attorney

6 FRANKFUET / M.

KRÖGERSTR. 5-TEL 281507

AKTIEBOLAGET TUDOR February 2nd, 1971

S-105 28 Stockholm

Sweden Case 623

Chemoelectric battery and method for making such a battery

A chemoelectric cell converts chemical energy into electrical energy in an electrochemical way. A chemoelectric The battery is made up of several such cells, each of which contains at least one negative or positive electrode. All conventional electrochemical power sources like Primary batteries, fuel batteries, accumulators, metal air batteries etc.

The construction of the chemoelectric battery varies considerably. Fuel batteries and metal air batteries are often made up of relatively thin elements that are arranged relative to one another in a functional manner are. The present invention relates to such a chemoelectric battery which is composed of a number of anode and cathode and possibly cooling and intermediate elements with preferably planar extent, which to

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stacked on a module or battery. An element generally contains a centrally arranged functional, part mounted in a surrounding plastic or rubber frame. In the functional part is e.g. the electrode material, or the catalytically active material is attached to the fuel cells. The frames of the elements can be created with in Be provided with holes going in the stacking direction. These holes form contiguous connections in the stack, which are called Channels are used for the supply of, for example, electrolyte and other media that circulate in the battery, e.g. fuel, Oxidation agent and possibly coolant in chemoelectric batteries of the fuel cell type. For sealing to the outside there are usually packings or O-rings between the plastic frames attached directly within their outer edges.

The elements are held together in a coherent unit by means of end plates which are connected to one another by bolts, tie rods or in some other way. The pressure that the holding bolts are supposed to absorb depends, among other things, on the internal pressure in the battery. In most electrically regenerable chemoelectric batteries, this internal pressure is solely due to the hydrostatic pressure of the electrolyte and the pressure forces that can arise when the active material changes its volume during the cell reaction. at

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other types of chemoelectric elements, e.g. metal ν Air batteries and fuel batteries, on the other hand, can be supplied Gases such as air and hydrogen gas are at a higher pressure than the electrolyte. The compression the sealing elements also require a certain pressure. The end plates for this type of battery are therefore often heavy and bulky, especially with fuel batteries that are intended for high differential pressure are which is a major disadvantage. Another major disadvantage is that the assembly of the batteries with their very large number of sealing elements such as packings and O-rings is a time-consuming and arduous job. In in practice, for example, it is often difficult to fit all of the O-rings in the right place. To eliminate these disadvantages, It has been proposed to weld the elements together so that they run around the holes in the frames Connections are anchored, namely by means of solidified thermoplastic melt as well as with the to the demarcation the interstices made connections with solidified thermoplastic melt. Instead of solidified melt Thermoplastic glue joints can also be used. This construction and joining method, which is mainly used in fuel cells intended for hydrogen gas and oxygen gas has been shown to result in dense and stable batteries. A joining method that

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has proven to be particularly suitable, however, is the weld joint, one element being joined to the other after the joint surfaces have been heated by contact with one Tool have been melted. The welding joint will certainly produce good joints, but unfortunately it is also time-consuming Labor, which is why the production cost of this type of battery is high in practice. Another essential one The disadvantage of these fully welded batteries is that they do not dismantle the electrodes for cleaning cannot be replaced, etc. This is a major disadvantage when you consider that many of these systems are after Aging can easily be regenerated provided the electrodes are accessible for treatment.

The present invention produces the same technical effect as the above-described gluing method or welding of the elements, giving a stable and tight construction. A major advantage of the invention Compared to previous techniques lies in the significantly lower production costs because the sizing or Welding moment is omitted, as well as in the possibility of simple dismantling for inspection or regeneration of the Electrode elements without destroying the elements. A particular difficulty in welding and gluing

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method lies in the fact that so-called secondary channels are often included must be made to make the connections between the ducts and the rooms that are connected to the ducts in question in Should be connected. This problem is addressed by the present invention, which allows the Elements can be produced in their final form and with all functions ready for assembly, completely pay.

It is characteristic of the invention that the elements are connected to one another directly or indirectly by means of mechanically closing Connections are anchored, The waterproofing is mainly done with the help of located around the frame Holes and means of the on the periphery of the elements as well as in all places where a seal is required is arranged, expediently self-constructed from the plastic material, closure elements, achieved. It is particularly useful wherever the design allows, the locking and assemble sealing elements to form a structural element.

The closing elements often consist of, on the one frame arranged, positive "He" function which a negative "you" feature on the other frame

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is equivalent to. These are coordinated in such a way that the "Er" function is pressed into the "You" function, which snaps shut and closes the "he" function. The frames are provided with such punctures on both sides, which are distributed so that frame can be placed on frame, so that one mechanically coherent Battery with the intended structure. With symmetrical constructions of the frame, the number of Element variants are kept low. If the frame E.g. symmetrical about its center line, the locking functions can expediently on one half can be made positive and negative on the other side, and vice versa on the other half, creating the framework thus it can be laid in two layers against another frame of the same type.

In general, the closing elements consist directly of the basic material of the frame. In certain cases however, it may be useful to attach special elements for anchoring functions. In this pail the frame can be provided with a negative puncture at the appropriate point. The special intermediate elector then has a positive one Puncture that snaps into the negative puncture of said frame. The other side of the intermediate element can have either a positive or negative puncture which in turn has an opposite function on the other

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- 7 - Snap the frame into place. ,

The frames with their locking and sealing functions are expediently made entirely of thermoplastic material, such as polyethylene, Made of polypropylene, PVC, chlorinated polyether, nylon, etc. The frame can be made with fiberglass fabric or with short fibers or otherwise reinforced to reduce shrinkage and increase strength. Plastic-coated metal frames can also be used. The snapping and locking functions can be reinforced with stiffer material and made more resilient with free or enclosed metal springs.

The plastic frames of the elements can, among other things, be directly connected to one another be connected in the areas around the holes and where the spaces are delimited to the outside. As mentioned above, the frames can also be indirectly connected to one another by means of intermediate elements Snap functions, the connections in the form of mechanical Snapping into place on both sides of the intermediate element produce, the intermediate element being attached between the two frames. When the intermediate element is on is arranged in a channel, the intermediate element is provided with a through hole running in the stacking direction. Special locking devices can also be used on the

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Periphery, for example, in the form of ligaments with negative punctures. e.g. holes, which tapes be stretched around the battery pack so that engagement against the positive punctures, e.g., pegs, on the Elements takes place so that they are fixed and pressed against each other.

Chemoelectric batteries constructed in accordance with the present invention can be used in a number of ways, including depending on on the type of battery. The invention is particularly suitable for, for example, fuel batteries, metal air batteries as well as bipolar lead-acid batteries and steel batteries with electrolyte circulation. The battery can consist of a single contiguous module or from a number of smaller modules that in another way form a large one Battery are assembled. In the latter case, special coupling elements may be required to to achieve a tight bond between the smaller modules on the continuous channels.

The individual cells can be connected in series or in parallel or in a combination of series and parallel connection within a single module. The switching can take place internally, possibly in special channels in the battery, or via current conductors attached outside of the electrode elements.

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The invention is accomplished by describing a number of exemplary embodiments with reference to the accompanying drawings. Fig. 1 shows one half a fuel battery for hydrogen gas and oxygen gas according to the invention in cross section. Fig. 2 shows the same battery seen from one end surface "Figs. 3, 4 and 5 show smaller batches of batteries, e.g. Fuel batteries, lead batteries and metal air batteries with various types of connections between adjacent ones Elements.

Fig. 1 shows a section through a fuel battery which contains two cell units. An anode element 1 is from the hydrogen electrode 2, enclosed in the plastic frame 3j built. The plastic frames are expedient provided with bellows 4 to compensate for dimensional changes in the system. A cathode element 5 consists of Oxygen electrodes 6, enclosed in the plastic frame 7, which in this example mainly has the same appearance as the corresponding plastic frame for the Cathode element, the electrodes in the two cathode elements can be connected to a current conductor (not shown) be connected to a busbar, which also applies to the electrodes in the anode elements, the two Cells are connected in parallel. The cells can also be connected in series. Are these power rails purpose-built?

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moderately arranged in special channels, which are separated from all rooms except the gas room, the is connected to the current arresters in question, The busbars can be led through in a gas-tight manner through special bushings made in the two elements will. The battery shown also contains a cooling bag made up of two cooling elements 8 with a central arranged cooling plates 9, inserted into the frame 10. The element stack 1 is supported by the two end elements 11 as well as two end plates 12 delimited, which are screwed together with screws 13 on the periphery of the package - see Fig. Often the end elements can be made so stiff that the end plates can be dispensed with. The electrodes are Gas-tight inserted into the plastic frame. On the periphery of the frame there are channels that allow the supply of hydrogen 14 from the water which condenses on the cooling elements 15, the supply of oxygen 16, the supply of cooling water to the cooling elements 17, the removal of cooling water from the cooling elements 18, the supply of electrolyte 19, serve to transport away electrolyte 20, as well as channels for the negative and positive busbars 21, 22. These channels are in connection with the hydrogen gas space or oxygen gas space or the cooling bag and the electrolyte compartment. The hydrogen electrodes are made of sintered nickel, which is coated with precious metals activated. The oxygen electrodes are

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made from sintered nickel and silver. The thermoplastic in the frame is made of polyethylene with high density and good elasticity. The individual elements are firmly anchored to one another by means of snap joints 23 around the continuous channels and in the joints 24 along the periphery. These connections also serve as sealing elements. These connections are arranged in the following way: the elements are stacked one at a time against the end plate and are pressed together so that the latches snap into place. After assembling the end plate, the stack is ready for use. If the tightness requirements are particularly high, a sealing seam can also be applied along the periphery, for example by spraying on plastic. However, this sealing seam must not be carried out in a load-bearing manner, that is to say used in part to hold the stack together mechanically, since this would make it more difficult to open the battery, which would eliminate one of the purposes of the invention. Fig. 3 and M show alternative methods to obtain a sealing connection with a simultaneous sealing puncture. Fig. 5 shows an embodiment in which the snap and sealing function are separated from one another. Fig. 6 shows a frame for a metal air battery, which are connected to one another by means of locking elements attached to the outside of the frame, Fig. 7, which are inserted into a recess on the adjacent element,

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which is shown in detail in Fig. 8, intervene. Fig. 9 shows an alternative embodiment with zigzag shaped Tapes with holes to fit pegs attached to the periphery of the elements, Fig. 10. The invention was made with a power source that is particularly complicated from a technical point of view, namely a hydrogen and oxygen battery shown with internal cooling. For a person skilled in the art there are no difficulties with the invention with other structurally simpler types, such as metal air batteries with iron, zinc or cadmium anodes, bipolar lead-acid batteries, bipolar steel accumulators, etc.

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Claims (1)

- 13 claim Chemoelectric battery comprising at least two Construction elements containing centrally arranged active electrodes inserted into a surrounding whole or partially consisting of a thermoplastic frame and possibly cooling elements each consisting of a central arranged cooling element used in a surrounding completely or partially made of a thermoplastic Frame, which elements are stacked to form a package with space between smaller parts and in the Frames are provided with connections made between the frames to delimit the space from the outside and possibly provided with holes going in the stacking direction for the supply of fuel and oxidizing agents, Coolant and electrolyte, where holes with the same puncture are arranged in connection with each other through channels running in the stacking direction, at least partially formed by the boundary walls of the holes, thereby characterized in that the elements are anchored directly or indirectly to one another with closing elements and that occurring spaces and channels are sealed with sealing elements with the closing elements can be assembled. 109841/1086