DE102004028424A1 - Contacting device for anode-cathode assembly of gas cell pile has counter contact component which is laminar in nature and has conductive area which has rectangular recess to facilitate the engagement of contact pin of contact component - Google Patents

Abstract

The contacting device (1) has a contact component (14) and a counter contact component (16) which is laminar in nature and has a conductive area (30). The conductive area has a rectangular recess (26) which facilitates the engagement of the contact pin (12) of the contact component. The recess can be produced from punching, laser cutting, water jet cutting or plasma arc cutting.

Description

The The invention relates to a contacting device for at least one anode / cathode arrangement, especially for at least one bipolar plate, a fuel cell stack for Detecting the voltage of individual fuel cells, with at least a contact element arranged on an anode / cathode arrangement and at least one mating contact element.

For the operational management of a Fuel cell stack, it is advantageous if the cell voltages the individual fuel cells formed in the fuel cell stack are known. A fuel cell is essentially formed from a cathode arrangement, in particular the cathode side of a first bipolar plate, a first gas diffusion layer, a membrane, a second gas diffusion layer and an anode arrangement, in particular the anode side of a second bipolar plate. (It should be noted, that the term bipolar plate in the context of this application only is used to simplify the terminology and that of the Term next to a one-piece Execution too multipart designs, especially as a separate cathode plate and anode plate.) With knowledge of the single cell voltages can be targeted to the management of the Fuel cell stack, possibly also individual fuel cells, Influence, for example, the desired total power output set or detect faulty operating conditions. Although is It is known from the prior art, voltages on bipolar plates but the known devices are expensive and / or have an undesirable high Bedart of space.

task The invention is therefore to show a contacting device, the inexpensive to produce is and requires only a small amount of space. The object of the invention is solved by that in a contacting device, the mating contact element formed in a planar shape is and has at least one conductive area, wherein in and / or at the area for the engagement of the contact pin formed as a contact element at least one aperture penetrating the mating contact element is arranged. In such a device is thus a sheet-like counter-contact element used to, by means of at least one conductive area the tapping voltage applied to the contact pin of the bipolar plate and to pass to a measured value processing device. Under the Term is sheet-like hen hen to understand that the mating contact element in a direction of extension (Height) has an extension which is opposite to the expansions in the both remaining extension directions (length, width) negligible is. In this case, the mating contact element can be designed in particular as a foil, the next to its area-like extent also still has a certain elasticity. The assembly of a Contacting device according to the invention is very easy to do, because after assembling the Fuel cell stack, the mating contact element only in such a way must be placed on the contact pin that this with the breakthrough comes in electrical contact. Are several breakthroughs and corresponding contact pin present, so the mating contact element, especially in the execution as a film, installed slightly folded between the individual contact points will be, because then even with thermal expansions within the fuel cell stack, or the entire fuel cell stack, the contact safely remains.

advantageously, is the leading area of area metallization of the mating contact element, by conductive carbon or graphite layers and / or formed by metal tongues. This allows the senior Area with good conductivity economical getting produced.

With Advantage, the breakthrough has a breakthrough area that is smaller than the largest, the plane the breakthrough area passing cross section of the contact pin. Such a dimensioning of breakthrough and contact pin allows a particularly reliable contact by good contact pressure and as a result a low contact resistance. Since the contact pin has a cross section in at least one area, which is bigger as the breakthrough area becomes the contact pin in a sense pressed into the breakthrough, so that the edge of the breakthrough area taut abuts the contact pin. The required extent of the breakthrough is by the appropriate choice of an elastic material for the mating contact element causes. It is also possible starting from the breakthrough at least one cut in the periphery of the breakthrough. The enlargement of the breakthrough area finds then by bending away the periphery of the breakthrough place. If the mating contact element a conductive region on the contact pin facing Side, so there is also the advantage that the senior Area in the periphery of the breakthrough against the associated Contact pin presses and thereby the contact resistance further reduced.

It is advantageous if the Durchbruchsflä che and the cross-section of the contact pin have in at least one plane passing through the breakthrough surface at least one overlap region, which causes a clamping and contacting of the contact elements. Since it is sufficient that a regional contact takes place, can be achieved with special forms of the contact pin material savings at good contact still good.

at an advantageous embodiment of the breakthrough by means of a by punching, laser cutting, water jet cutting and / or Plasma cutting generated recess, in particular rectangular Recess, formed. This is a simple and inexpensive production for the breakthrough.

advantageously, the contacting device has a plurality of apertures and contact pins, in relation to their distance to a longitudinal direction of the fuel cell stack imaginary axis offset from one another. This can the proposed device even with very thin bipolar plates are used, where otherwise the distance between the contact pin too small for the proposed realization would be.

It is advantageous if the contacting device in the mating contact element executed, the mating contact element during expansion or shrinkage mechanically relief cuts and / or slots are executed. Since the mating contact element thus a high degree flexibility gets can the manufacturing tolerances for the anode / cathode assembly or other components of the fuel cell stack better chosen become.

at An advantageous embodiment of the invention is at least along a part of the edge of the breakthrough applied a via, especially applied electrochemically. The via represents the executive area or part of the executive area and improves the contact between the conductive area and the Contact pins. The via is preferred as a thin metal layer executed.

The Invention will now be explained in more detail with reference to an embodiment. there demonstrate

1 a contacting device,

2 a fuel cell stack and

3 a breakthrough with through-hole.

1 shows a contacting device 1 for at least one anode / cathode assembly 10 , here for at least one bipolar plate 11 , with one at the bipolar plate 11 arranged and as a contact pin 12 executed contact element 14 and with a mating contact element 16 , The representation of the bipolar plate 11 shows a media channel 18 , a river field 20 , an anode side 22 and a cathode side 24 , The mating contact element 16 shows a first and a second breakthrough 26 . 28 on, each from a senior area 30 (indicated by the dashed hatching) are surrounded. It should be noted that to the managerial area 30 also the cut edges and surfaces of the respective breakthrough 26 . 28 count ("via"). The mating contact element 16 is here as a foil 32 formed, wherein the conductive areas 30 from a partial metallization of the film 32 are formed.

To ensure secure contact between the contact pin 12 and the executive area 30 the first breakthrough 26 to achieve the cross section of the first breakthrough 26 chosen smaller than the cross section of the contact pin 12 , So that the contact pin 12 in the first breakthrough 26 can penetrate are four cuts 34 executed, each in a recess 36 end to a tearing of the film 32 to prevent. (Such an effect can be also with small to the cuts 34 achieve vertical cuts.) This embodiment results in that the contact pin 12 the elements of the leading area 30 Bends away, leaving the metallized areas of the film 32 against the contact pin 12 to press. The contact pressure can be determined, inter alia, over the length of the cuts 34 to adjust. The partial metallization of the film 32 is on the bipolar plate 11 facing side of the film 32 applied. The first and second breakthrough 26 . 28 surrounding conductive areas 30 sit down as the first and second Folienleiterbahn 38 . 40 which are attached to the respective bipolar plate 11 conduct tapped voltages to a measured value processing device, not shown. The first and second foil conductor 38 . 40 can both within the slide 32 be arranged as well as on the surface. Finally, be on the in the mating contact element 16 , or the film 32 , executed cuts 50 or slots 52 noted in the case of expansion or shrinkage of the film 32 serve the mechanical relief.

2 shows a section of a fuel cell stack 42 comprising four bipolar plates 11 and three membrane areas 44 that go along an axis 46 are arranged. In this case form an anode side 22 , a membrane area 44 (optionally with Gasdif fusion layers) and a cathode side 24 one functional fuel cell each 48 , The Contact pin 12 are related to their distance to the axis 46 staggered to each other to make the film 32 simplify and increase stability. This is especially true for thin bipolar plates 11 advantageous.

3 shows a cross section of a breakthrough 26 that with an electrochemically applied via 49 which is part of the conductive area 30 forms.

1

contacting

10

Anode / cathode assembly

11

bipolar

12

Contact pin

14

contact element

16

Contact element

18

media channel

20

flow field

22

anode side

24

cathode side

26

first breakthrough

28

second breakthrough

30

senior Area

32

foil

34

cut

36

recess

38

first Flexible flat cable

40

second Flexible flat cable

42

fuel cell stack

44

membrane regions

46

axis

48

fuel cell

49

via

50

cut

52

slot

Claims (8)

Contacting device ( 1 ) for at least one anode / cathode arrangement ( 10 ), in particular for at least one bipolar plate ( 11 ), a fuel cell stack ( 42 ) for detecting the voltage of individual fuel cells ( 48 ), with at least one of an anode / cathode assembly ( 10 ) arranged contact element ( 14 ) and at least one mating contact element ( 16 ), characterized in that the mating contact element ( 16 ) is formed surface-shaped and at least one conductive area ( 30 ), in and / or at the area ( 30 ) for the engagement of the contact pin ( 12 ) formed contact element ( 14 ) at least one counter-contact element ( 16 ) penetrating breakthrough ( 26 ) is arranged. Contacting device ( 1 ) according to claim 1, characterized in that the conductive region ( 30 ) of a zone-wise metallization of the mating contact element ( 16 ), is formed by conductive carbon or graphite layers and / or by metal tongues. Contacting device ( 1 ) according to one of the preceding claims, characterized in that the breakthrough ( 26 ) a breakthrough area ( 27 ), which is smaller than the largest, the plane of the breakdown surface passing through cross-section of the contact pin ( 12 ). Contacting device ( 1 ) according to one of the preceding claims, characterized in that the breakthrough surface ( 27 ) and the cross section of the contact pin ( 12 ) in at least one of the breakthrough area ( 27 ) passing through at least one overlap region, the clamping and contacting of the contact elements ( 12 . 26 ) causes. Contacting device ( 1 ) according to one of the preceding claims, characterized in that the breakthrough ( 26 ) is formed by means of a recess produced by punching, laser cutting, water jet cutting and / or plasma cutting, in particular rectangular recess. Contacting device ( 1 ) according to one of the preceding claims, characterized by a plurality of openings ( 26 . 28 ) and contact pins ( 12 ), which in relation to their distance to a longitudinal direction of the fuel cell stack ( 42 ) imaginary axis ( 46 ) are offset from one another. Contacting device ( 1 ) according to one of the preceding claims, characterized by, in the mating contact element ( 16 ), the mating contact element ( 16 ) in case of expansion or shrinkage mechanically relieving cuts and / or slits. Contacting device ( 1 ) according to one of the preceding claims, characterized in that at least along a part of the edge of the aperture ( 26 ) a via ( 49 ) is applied, in particular is applied electrochemically.