DE102007024959A1 - Seal for electrode of e.g. fuel cell, has electrode with expanded material, which is completely surrounded by sealing material in electrode sealing area, where sealing material forms flat sealing surfaces at side surfaces of electrode - Google Patents

Abstract

The seal has an electrode (1) with an expanded material, which is completely surrounded by a sealing material (3) i.e. silicone sealing material, in a circular sealing area (2) of the electrode. The sealing material forms flat sealing surfaces (4, 5) respectively at a pair of side surfaces (1a, 1b) of the electrode. The thickness of the sealing material is larger than the thickness of the expanded electrode between the side surfaces such that the respective sealing surfaces project at the side surfaces around 0.05 millimeter (mm) to 0.50 mm. An independent claim is also included for a method for sealing an electrode against a bipolar plate or a membrane of a fuel cell or an electrolyzer.

Description

The The invention relates to a seal of an electrode of a fuel cell or an electrolyzer, a corresponding electrode of a fuel cell or an electrolyzer with such a seal and a method for mutually sealing an electrode against a bipolar plate and / or Membrane of a fuel cell or an electrolyzer.

Generally, electrodes of fuel cells or electrolyzers must be sealed against a bipolar plate or membrane of fuel cells or electrolyzers against leakage of liquid (water). In this case, electrodes are glued directly, for example by sealing compounds. However, this has the disadvantage that no releasable connection of such electrodes is possible, ie a possible replacement of a defective or worn electrode from a stack of fuel cells is then not possible. Other seals are relatively expensive and require separate sealing discs, which must be specially applied and arranged between a bipolar plate and, for example, a membrane. Such a seal is for example in the EP 1 453 120 A2 described.

It Therefore, the object of the present invention is a seal an electrode of a fuel cell or an electrolyzer or an electrode with such a seal or a method for mutually sealing an electrode against a bipolar plate and / or membrane of a fuel cell or an electrolyzer which overcomes the disadvantages of the prior art over and in particular a particularly simple, service-friendly, reliable and cost-effective seal with low space requirements offers.

The The object is achieved by a seal having the features of claim 1, through an electrode with such a seal with the features according to claim 4 and by a method with the features according to claim 7.

advantageous Embodiments of the invention are in the respective Subclaims defined.

at the seal of an electrode according to the invention a fuel cell or an electrolyzer is a stretched Material of an electrode in a peripheral sealing area of the Electrode completely surrounded by a sealing material. there forms the sealing material according to the invention a first side surface and a second side surface the electrode in each case a flat or substantially flat sealing surface.

There the stretched material of the electrode according to the invention thereby in the circumferential sealing area of the electrode completely surrounded by the sealing material are thus according to the invention, the openings in the material of the electrode, which for the mass transfer are required in the fuel cell or in the electrolyzer, reliably sealed. It results in a hundred percent Tightness with respect to these material flows. The Reusability or interchangeability of an electrode with a Such seal is guaranteed by the respective level sealing surface on the first side surface or on the second side surface of the invention Seal provided electrode.

According to the invention the sealing material of the gasket made of a silicone gasket material consist. This can be supplied by a suitable method be that in the circumferential sealing area the stretched material the electrode completely with the sealing material, preferably surrounded with the silicone sealing material.

Around to achieve a possible defined sealing effect and in particular to the invention required Space requirement, which inventively reduced anyway is, especially to reduce, the thickness of the sealing material be chosen so that it is bigger as the thickness of the stretched electrode between the two side surfaces, so that preferably the respective sealing surface in each case by at least 0.05 mm to 0.50 mm the first side surface and the second Projected side surface of the electrode.

The The invention further relates to an electrode of a fuel cell or an electrolyzer with a gasket as described above is, namely an electrode of stretched material, which in a circumferential sealing area of the electrode of a Sealing material is completely surrounded. It forms the sealing material according to the invention on a first side surface and on a second side surface the electrode in each case a flat or substantially flat sealing surface.

As a general rule It should be noted that the flat or substantially planar sealing surface according to the invention not glued to other sealing surfaces, but thereby a defined seal is made possible, which according to the invention a Interchangeability allowed.

The Sealing material of the electrode according to the invention may be a silicone gasket material.

The electrode according to the invention can be a Have thickness of the sealing material, which is greater than the thickness of the stretched electrode between the two side surfaces, wherein preferably the respective sealing surface in each case by at least 0.05 mm to 0.50 mm, the first side surface and the second side surface of the electrode projects beyond.

The The invention also relates to a method of sealing against each other an electrode against a bipolar plate or a membrane of a Fuel cell or an electrolyzer with the steps: complete Enveloping a stretched material of the electrode in a circumferential sealing region of the electrode with a sealing material, wherein the sealing material on a first side surface and one on each of a second side surface of the electrode plane or substantially flat sealing surface forms, and by placing the electrode and the bipolar plate or membrane on each other so that the flat sealing surface of the circumferential Sealing area of the electrode on the bipolar plate or membrane is arranged. Thus, the invention solvable sealing connection between the electrode and the bipolar plate or the membrane can be produced.

The Invention will be described below with reference to the figures, which a preferred embodiment of the present invention show by way of example.

1 shows schematically in a perspective view an electrode with a seal according to the invention according to a preferred embodiment of the present invention.

2 shows a schematic plan view of the electrode of 1 ,

3 shows a schematic sectional view of a part of the electrode of 2 ,

4 shows the section A of 3 in magnification.

1 shows an electrode of a fuel cell or an electrolyzer with a seal according to a preferred embodiment of the present invention in a schematic, perspective view.

The electrode according to the invention 1 of the 1 consists of a stretched material, with openings in the electrode due to stretching (these are in 1 and also not to be seen in the following figures due to the difficulty of graphic representation). In a circumferential sealing area 2 is the electrode 1 from a sealing material 3 completely surrounded, so that there are no through openings or these openings all reliably according to the invention by the sealing material 3 are sealed. The sealing material 3 forms according to the invention on a first side surface 1a and on a second side surface 1b the electrode 1 each a flat or substantially flat sealing surface 4 respectively. 5 , As a sealing material 3 a silicone sealing material is used, which at least in the region of the sealing surface 4 . 5 not permanently bonded with other sealing surfaces.

2 schematically shows a plan view of the electrode according to the invention 1 of the 1 ,

Also in 2 are the openings of the stretched material of the electrode 1 not shown for graphic reasons. Otherwise, as in the other figures, the same reference numerals correspond to the same elements.

As in 2 can be seen, the sealing material forms a circumferential sealing area 2 the electrode 1 Here, in plan view, the flat or substantially flat sealing surface 4 on the first side surface 1a the electrode 1 you can see.

3 shows a sectional view of a portion of the electrode of 1 or the 2 , On average, it is easy to see that in the area of the sealing area 2 the sealing material 3 on the first side surface 1a and on the second side surface 1b the electrode 1 each a flat or substantially flat sealing surface 4 respectively. 5 formed.

4 is a magnified on a scale of 50: 1 schematic sectional view of the detail A from 3 ,

Out 4 it can be seen that the thickness of the sealing material 3 is preferably chosen so that it is greater than the thickness of the stretched electrode 1 between the two side surfaces 1a . 1b , wherein the thickness of the electrode according to 4 0.45 mm and the respective sealing surfaces 4 . 5 the respective side surfaces 1a respectively. 1b project by 0.05 mm or 0.10 mm. The sealing material 3 surrounds the stretched electrode 1 completely, that is, also located therein, caused by the stretching or enlarged openings are filled in the sealing area. The sealing material 3 is not just on the side surfaces 1a . 1b the electrode 1 applied, but it completely surrounds the material of the electrode with the openings therein. This is unfortunately out 4 (and also out 3 ) not optimally visible. So enters in 4 (as well as in 3 ) the sealing material 3 completely through the corresponding openings of the electrode 1 through and surrounds the stretched material of the electrode 1 there according to the invention completely.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1453120 A2 [0002]

Claims (7)

Seal of an electrode of a fuel cell or of an electrolyzer, characterized in that a stretched material of the electrode ( 1 ) in a circumferential sealing area ( 2 ) of the electrode of a sealing material ( 3 ) is completely surrounded, wherein the sealing material ( 3 ) on a first side surface ( 1a ) and on a second side surface ( 1b ) of the electrode ( 1 ) each have a flat or substantially flat sealing surface ( 4 . 5 ). Seal according to claim 1, characterized in that the sealing material ( 3 ) is a silicone gasket material. Seal according to claim 1 or 2, characterized in that the thickness of the sealing material ( 3 ) is such that it is greater than the thickness of the stretched electrode ( 1 ) between the two side surfaces ( 1a . 1b ), so that preferably the respective sealing surface ( 4 . 5 ) each at least 0.05 mm to 0.50 mm the first side surface ( 1a ) and the second side surface ( 1b ) of the electrode ( 1 ) surmounted. Electrode of a fuel cell or of an electrolyzer with a seal, characterized in that a stretched material of the electrode ( 1 ) in a circumferential sealing area ( 2 ) of the electrode of a sealing material ( 3 ) is completely surrounded, wherein the sealing material ( 3 ) on a first side surface ( 1a ) and on a second side surface ( 1b ) of the electrode ( 1 ) each have a flat or substantially flat sealing surface ( 4 . 5 ). Electrode according to claim 4, characterized in that the sealing material ( 3 ) is a silicone gasket material. Electrode according to claim 4 or 5, characterized in that the thickness of the sealing material ( 3 ) is such that it is greater than the thickness of the stretched electrode ( 1 ) between the two side surfaces ( 1a . 1b ), so that preferably the respective sealing surface ( 4 . 5 ) each at least 0.05 mm to 0.50 mm the first side surface ( 1a ) and the second side surface ( 1b ) of the electrode ( 1 ) surmounted. Method for sealing an electrode against each other against a bipolar plate or a membrane of a fuel cell or an electrolyzer, characterized by, complete Enveloping a stretched material of the electrode in a circumferential sealing region of the electrode with a sealing material, wherein the sealing material on a first side surface and on a second side surface of the electrode, respectively forms a flat or substantially flat sealing surface, and by disposing the electrode and the bipolar plate or the Membrane so that the flat sealing surface of the circumferential sealing area of the electrode on the bipolar plate or the membrane is arranged.