DE1953305A1 - Gas-depolarized element and housing for it - Google Patents

Description

Energy Conversion Limited, Britannic House, Moor Lane, London, E.C.2,

England

Gas depolarized element and housing therefor.

The invention relates to electrochemical elements for production of electrical energy, in particular gas depolarized elements of the type in which the anode is replaceable to create the opportunity to make the element perform again after the anode has been consumed in the electrochemical process has been.

There are suggestions for the provision of anodes for such elements made with the anodic material formed around a power distributor and a cap provided on the anode body, with which the anode can be handled and the element sealed against loss of electrolyte. Such an anode is particularly useful for those cell designs where

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Cathodes are arranged on each Ssite of the anode so that the

Anode can be inserted between the cathodes or removed by means of the cap. Although such Bi-2ellen for different Purposes, for example, for ease of use may have the fact that the cap and the "power distributor" go together with sealing means which may be formed integrally with the cap, all out of service with the spent anode be significant when cost is important. One purpose of the present invention is to provide a modified Embodiment to provide an element in which the loss of materials, which under these circumstances put out of use will be significantly reduced.

According to the present invention, a gas-depolarized element is provided which has an anode and at least one cathode contains, the anode being interchangeable to allow the element to be made efficient again, after the anode has been consumed in the electrochemical process during discharge of the element, and a Power distributor for the anode / on the anode body is separable. An electrolyte-permeable element arranged between the anode and the cathode Separator can be introduced into the element separately from the cell. The anode / manifold assembly according to the invention is normally useful if the elements are arranged straight ahead in a row. In this case requires the arrangement of elements a non-porous member between adjacent elements to prevent depolarizing gas for the cathode of the One element reaches the anode of the next element, and continues to mainly prevent electrolyte from entering the Gas space penetrates.

Such a separator can be a metallic plate, for example

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made of nickel or silver and so the power distributor or Form a non-porous plastic material, in the surface of which the current distributor for the anode is pressed or in some other way can be formed. The distributor can be used as a precipitate or a metallic coating can be formed on the separator.

According to a further development of the invention, a housing arrangement for a gas-depolarized element is provided which generally has a planar, electrically insulating housing with an opening or a window in a larger surface area, a cathode arranged to span the opening or window, or is closed, and has a power distributor attached to the inner surface of the other major surface of the housing is carried so as to be switchable with an anode for the element which is suitable for placement in the housing during use of the element can be used separately. The other larger surface of the housing can be with an opening or a window be provided, a non-porous member spans and closes this opening or this window and the power distributor is opened carried on the inner surface of the non-porous member. The nicat porous member can be made of a synthetic plastic material, and the power distributor is pressed into the surface or otherwise arranged therein. In modification of this, that can non-porous member can be formed from electrically insulating material, and the power distributor is used as a deposit or a metallic coating made of electrically conductive material on the surface * The other larger surface of the housing can be provided with an opening or a window, and the power distributor contains an impermeable metal foil that spans and closes this opening or window. The case can be designed as two Ra lime η, each of which is a larger one Contains surface of the housing, or as a modification to this entalten a single, simple peripheral frame. The housing can be made from

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BATH ORIGINAL

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synthetic plastic material. A cap and a sealing member close an opening in one of the end surfaces of the housing through which an anode is inserted. The cathode may have an electrolyte-permeable separator on top of it wear inner surface. Special power lines can extend from the cathode and the power distributor to provide an external connection to be provided for the compilation.

In a simple embodiment of the element according to the invention For example, the anode is arranged as a body of anodic material which substantially defines the space between the anode power distribution member and fills the cathode when inserted into the element. However, space must be provided for the insulating isolator which separates the anode from the cathode. This separator is most likely made of an electrolyte absorbent Paper, and this can be inserted into the element separately from the anode. In fact, it can be carried by the cathode. Alternatively, the separator can be worn on the anode, but this usually entails replacing it when the spent anode is removed and put out of use.

In the drawing the element according to the invention is in cross section shown in one embodiment.

The element includes a cathode 1 and an anode 2. The cathode is separated from the anode by a release paper 3 or a liner separated, which extends only over the part of the anode surface adjacent to the cathode.

The element is provided with a housing or frame 4 made of polystyrene, and the cathode 1 fills the opening or window 5 one side of the frame 4, while the other opening or window 5 on the opposite side of the frame 4 with a coarse plate grid 7 is provided, or it is an extended one

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ORIGINAL JNSPKiTED

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Metal plate arranged over it. This plate had an electrolyte impermeable Support 8. When the element is discharged, the plate 7 is pressed against the back of the anode, which consists of sponge, zinc with added mercury. This plate 7 has a connection 9 leading out of the frame, and this Terminal may be in contact with the cathode of the adjacent element in an element battery. When unloading will also be the cathode 1, the anode 2 and intervening release paper 3 are pressed together, and the electrolyte fills the pores or others Openings in the release paper 3 or the intermediate layer and thereby sees the necessary ionic connection between the electrodes

So that the electrolyte cannot escape from the element during operation, a seal is necessary to seal the element. This is shown in the drawing as a special member 10 in the form of a sealing push-on cap with a sealing member Il shown, which between the cap and the top of the Frame is interposed. It can also be seen from the drawing that the anode body with a, for example, by pouring provided in the anode attached gripper 12. This gripping member or gripper makes it possible to insert the anode into the Introduce element or lead out of it. A plastic link or loop can, if desired, be inserted into the Anode can be installed to facilitate handling. As shown, the same cap and sealing member can be used with a replacement anode, and the only material put out of use when the used one is removed Anode must be the anode and the associated gripping member and / or the Be plastic loop.

If desired, the sealing member can be integral with the anode

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as also made with the cap. But then there would be the advantage of a reduction in the amount of that which has been put out of use Material cannot be reached. The frame 4 can consist of two separate There are frames, with the cathode attached to one frame and the power distributor attached to the other, before the two Frame to be attached to each other.

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Claims (1)

E / p G714 -7- Oct 20th b9 B / We Claims 1. A gas depolarized element comprising an anode and at least one cathode, wherein the anode is replaceable to enable the element to be made functional again after the anode has been consumed in the electrochemical process during the discharging of the element, characterized by a current distributor (7) for the anode (2), which can be separated from the anode body (2). 2. Element according to claim 1, characterized in that a between the anode (2) and the cathode (1) arranged electrolyte-permeable separator (3) in the element automatically is inserted from the anode (2). 3. Element according to claim 1 or 2, characterized in that a non-porous member (8) between each anode (2) and the cathode (1) of the next element is arranged. 4. Element according to claim 3, characterized in that each current distributor (7) for the anodes (2) of a non-porous Limb (8) is worn. 5. Element according to claim 4, characterized in that the current distributor ("/) has an electrically conductive grid which is attached to the non-porous member (O) , and the non-porous member (8) consists of synthetic plastic material. 6. Element according to claim 4, characterized in that the non-porous member (8) made of electrically insulating material manufactured and the power distributor (7) as a deposit or metallic coating made of electrically conductive material is formed on a surface. 009823/124 Ε / ρ, 1.714 -8- Oct. 20 19 69 B / We 8. Element according to claim 3, characterized in that the non-porous member (8) is made of metal and also acts as a current distributor (/). 6. Element for a qasdepolarized cell, labeled by a generally planar, electrically insulating housing (4) v / elches with an opening or a window (5) a larger side, a cathode (1) arranged to span and close off the opening or the window (5) and a power distributor (7) is provided which extends from the inner surface of the other major surface of the housing (4) is worn in such a way that it can be engaged with an anode (2) for the element, which is separate from the arrangement in the housing (4) can be inserted during the use of the element. 9. Element according to claim 8, characterized in that the other larger Oberfläcne of the housing (4) with an opening or a window (G) is provided, a non-porous member (b) spans the latter opening or the window (G) and closes, and the power distributor (7) is carried by the inner surface of the non-porous member (δ). 10. Element according to claim 9, characterized in that the nicx.t porous member (8) consists of synthetic plastic, and the power distributor (7) is pressed or otherwise arranged on the surface. 11. Element according to claim 9, characterized in that the non-porous member (o) made of electrically insulating material consists, and the power distributor (7) as a precipitate 009823/1241 Ε / ρ 6714 -9- Oct. 20 1969 B / We or a metallic coating of electrically conductive material is formed on the surface. 12. Element according to claim 8, characterized in that the other large surface of the housing 4 with an opening or a window (6) is provided, and the power distributor (7) contains an impermeable metal foil, which the latter Opening or window (G) spans and closes. 13. Element according to one of claims ο - 12, characterized in that that the housing (4) consists of two frame members, each of which contains a larger surface of the housing (4). 14. Element according to any one of claims 8-12, characterized in that that the housing contains a single, simple peripheral frame. 15. Element according to any one of claims 8-14, characterized in that ■ That the housing (4) is made of synthetic plastic material is. 16. Element according to any one of claims S - 15, characterized by a cap (10) and a sealing member (11) for closing an opening in one of the end surfaces of the housing which an anode (2) can be inserted. 17. Element according to one of claims b - 15 ", characterized in that that the cathode (1) carries an electrolyte-permeable separator (3) on its inner surface. 18. Element according to one of claims C - 17, characterized by special current conductors (9) which extend from the cathode (1), and through a power distributor (7) to provide an external connection to the overall assembly. 009823/1241 AO Blank page