DE102006006831A1 - Fuel cell stack contacting device, has contact pins assembled on circuit boards, which are arranged as sides of rhombuses and stand parallel to one another, such that boards are aligned correctly to contact stack arrangements of electrodes - Google Patents

Abstract

Device has a set of contact pins (7) assembled on movable printed circuit boards (1). The boards are arranged as opposite sides of rhombuses (5) and stand parallel to one another, such that the boards are aligned correctly to contact stack arrangements of electrodes. The boards are guided by coupling units (4) that run in rails at its ends, and are connected with the coupling units by hinges (3). A flexible printed circuit board and a bus bar are provided to form an electrically conducting connection between the pins and plug-in connectors.

Description

TECHNICAL FIELD OF THE INVENTION

The The invention relates to a device for tapping electrical Potentials of fuel cell stacks and similar arrangements.

WAS STANDING OF THE TECHNIQUE

In the development phase of fuel cell systems or in research projects is it meaningful and indispensable, the impact of the most diverse Development parameters on the function as comprehensively as possible metrologically to capture, among other things, the electrical voltage of each individual Cell. When working on fuel cell stacks, so arrangements of stacked single cells, the electrical potentials can be for example, with resilient contact needles tap and on a Lead connector.

It is common, several contact needles - for example 10 - up to assemble a unit, and several of these units on the Stack to install. - If a parameter such as the geometry, in particular the Thickness of the electrodes, the diffusion layer, the membranes, the seals or also the surface pressure changed should be, then have to usually new units with a different arrangement of contact pins be developed, especially with other distances. This is an unsatisfactory Condition, because in the development process constantly costs arise - and because Time is lost.

TASK THE INVENTION

Of the Invention is based on the object with a single device cover a wide range of stack geometries, in particular the following measures do not cause that new units designed and manufactured for contacting Need to become: Change in the Electrode thickness, for example, as a result of changes in the flow field, modifications at the seals, changes in the field of MEA, ie in the area of the diffusion layer and the Membrane.

SOLUTION

According to the invention, the object of contacting stacks ( 8th ) different geometry solved in that instead of rigid printed circuit board assemblies an articulated construction is used with locking device. The carriers of the contact needles are preferably realized in the form of narrow circuit board strips, and these are guided by mechanically rigid coupling members in a manner that the entire assembly can be easily and quickly adapted to virtually any occurring stack geometry.

The required mechanical stability is achieved by a locking device reached as well guide rail serves and thus for a precise mechanical guide provides. This device can be used as a carrier for one or more connectors become, with what all Functional elements combined to form a mechanically stable unit are.

The Part-task, the electrical potentials on easily manageable Can lead connector particularly elegant thanks to flexible printed circuit boards solved become.

DESCRIPTION THE INVENTION

In the novel device ( 1 ) are in contrast to all known designs, the contact pins ( 7 ) on movable legs ( 1 ), and these are preferably designed as printed circuit boards. Depending on how many needles are mounted on each leg, so many parallel rows of contacts ( 9 ) are the consequence. This offset of the needle positions makes it possible to securely contact even stacks with extremely narrow electrodes without the risk of short circuits between the contact needles.

According to the invention, the object of contacting stacks ( 8th ) - this is the technical term for a stratification of single cells, sometimes also called "stack" - different geometry solved by not ten or more contact needles ( 7 ) on one unit - preferably printed circuit boards ( 1 ) - but a much smaller number - for example, two ( 2 ). These circuit boards are - as in 1 outlined - over joints ( 3 ) so interconnected, as one knows from pantographs. In this way, a chain of parallel aligned printed circuit boards ( 1 ), which in each case have two joints with coupling links ( 4 ), which in turn are hingedly connected to the next circuit board. The joints form rhombs ( 5 ), which adhere to the tips ( 6 ) touch. For example, if two pin contacts are mounted on the printed circuit boards at a distance that matches the leg length of the diamonds and, moreover, the distance of one of the contact pins to one of the joints is half the leg length, then the locations of all the contact pins form a pattern of two parallel ones Needle groups with the special property that the distance component of the coordinate parallel to the two rows ( 9 ), is basically constant over the entire group. This does not exclude that also An orders may be useful in which the spacing components may not be identical or the offset of the needle positions must be different. Within the scope of the invention, even in such cases, a minimal repertoire of printed circuit boards ( 1 ) to contact stacks of any geometry and cell count.

With further embodiments, it is ensured that the deflection does not become unacceptably large even with a large number of contact needles. In particular, by the juxtaposition of one hundred or more contact needles, which quite corresponds to the realities, summing up the contact forces and the clear width - and in consequence the bending moments quite considerably. For example, the coupling links ( 4 ) as in 2 sketched out of sheet metal, by at the ends of guide plates ( 10 ) and the supernatants serving as joint axis ( 16 ) are slightly longer than the PCB thickness and they are provided with an internal thread. After threading the circuit boards can be secured in this way, the circuit boards by screws. Alternatively, connections according to the "push-button principle" are also advantageous if assembly and disassembly without a tool is preferred. - The guide straps ( 10 ) run in guide rails, which are not pictured here. The guide rails absorb the sum of the contact forces and give the system the required mechanical stability. For this purpose, by loosening the clamping screws, the guide rails allow the adjustment of the arrangement. To fix the clamping screws are tightened.

The electrical connection to one or more connectors can be made by wires. Especially elegant is the use of flexible printed circuit boards ( 12 ), as in 3 and 4 shown schematically. On these connectors can be easily ( 11 ) to be assembled. The busbars ( 13 ) carry contact zones ( 14 ) - for example, metallized breakthroughs - for contacting the contact needles, which can be done for example by soldering, plugging, clamping or by screws. About not shown here traces are the electrical potentials of the contact pins ( 7 ) the connector ( 11 ). Because when moving the device the contact points ( 14 ) are moved both transversally and rotationally, by two kinks ( 15 ) between the contact points ( 14 ) the necessary deformation of the film strips ( 13 ), as in 3 and 4 indicated.

It become units with a uniform number of contact needles per circuit board suggested - preferably two - but also removable contact pins, allowing the user depending on Requirement can quickly assemble a unit. Finally will suggested for the contacting of the respective last plates a modified To have the geometry of the PCBs in question and, if necessary, because it may be because of the geometric design of the stacking layer required is. Due to the geometric conditions of the arrangement can through a relatively large change in location the needle position on the circuit board a relatively small change in location the needle position perpendicular to the plane of the electrodes within the Stacks are covered. Because of this, it is possible to a circuit board more than a position for a contact needle vorzuhalten. This triggers in connection with plug-in contact needles the problem the contacting of end cells, where in many real stack arrangements the symmetry is broken.

Of the Term "contact needles" is here as in the entire description synonymous with any execution used springy contacts.

SUMMARY THE FIGURES

in the The invention is described below with reference to the figures preferred embodiments further explained and described.

1 shows an indicated stack ( 8th ) and the construction, wherein the preferably used printed circuit boards ( 1 ) as well as the coupling links ( 4 ) are shown as lines for ease of understanding, the needles ( 7 ) as circles, joints ( 3 ) as crosses,

2 shows an exemplary embodiment of a coupling member ( 4 ) with guide straps ( 11 ) and supernatants ( 16 ) as axes with bore and internal thread,

3 schematically shows a foil arrangement, with which the electrical potentials of the contact needles on conductor tracks via strip-shaped busbars ( 13 ) on the connector ( 11 ),

4 shows a side view of a section of a strip-shaped busbar ( 13 ) with flexible printed circuit board ( 1 ) and contact pins ( 7 ), Contact points ( 14 ) and kinks ( 15 )

1

Carrier of Contact needles, e.g. circuit board

2

e.g. two contact pins (circles)

3

articulation point (Cross)

4

Coupling member, e.g. made of sheet metal

5

rhombus or rhombus

6

each touch two diamonds at the side tip

7

Contact Adel (Circle)

8th

, indicated stack

9

(E) two parallel contact rows

10

guide tabs or tabs

11

Connectors

12

flexible circuit board

13

bus made of flexible printed circuit board material

14

Contact point - e.g. hole with contacted edge

15

kinks

16

Axis - guides the circuit boards ( 1 )

Claims (11)

Device for contacting fuel cell stacks and similarly constructed arrangements, characterized in that the contacting by means of resilient contacts - for example, contact pins ( 7 ), And these on movable platelets ( 1 ) are preferably printed circuit boards, in that a plurality of these plates are arranged as opposed legs of in-plane deformable diamonds ( 5 ) - consisting of platelets ( 1 ) and coupling links ( 4 ) Are arranged so that all platelets, regardless of how far the diamond guide of the entire assembly is pulled apart or pushed together, are parallel to each other and thus aligned correctly to stack assemblies of electrodes ( 8th ) to contact. Apparatus according to claim 1, characterized in that the movable plates are guided by coupling members which at their ends ( 10 ) run in rails, in which they are freely displaceable in the unlocked state and fixed in the locked state. Apparatus according to claim 1 or 2, characterized in that the coupling members ( 4 ) even carry contacts. Apparatus according to claim 2, characterized in that on the guide rail connectors ( 11 ) are mounted, which are electrically connected to the resilient contacts. Device according to one of claims 1 to 4, characterized in that the electrically conductive connection between the contacts ( 7 ) and the connectors ( 11 ) via flexible printed circuit boards ( 12 . 13 ) he follows. Device according to one of claims 1 to 5, characterized in that the contacts ( 7 ) not firmly with the platelets ( 1 ) are connected, but pluggable. Device according to one of claims 1 to 6, characterized in that the arrangement of the contacts on the platelets takes place in such a way that the distance between hinge point ( 3 ) and next contact is exactly half the distance of the needles with each other, which equidistant electrode types can be contacted. Device according to one of claims 1 to 6, characterized in that the arrangement of the contacts on the platelets takes place in such a way that the distance between hinge point ( 3 ) and next contact is not exactly half the distance between the needles with each other, so that electrode arrangements can be contacted, in which the electrode intervals repeat periodically shifted. Device according to one of claims 1 to 6, characterized in that the arrangement of the contacts ( 7 ) on the platelets ( 1 ) in a way that two alternative positions for the assembly of the contact ( 7 ), which also contact points can be taken into account at the end positions of a stack, which differ from the pattern within the stack, which is preferably achieved by two alternative contact goblets are mounted on the circuit boards, in which the resilient contact can be selectively inserted. Apparatus according to claim 1 or 2, characterized in that the coupling members ( 4 ) via a movable screw connection with the platelets ( 1 ) are connected. Apparatus according to claim 1 or 2, characterized in that the coupling members ( 4 ) via a movable push-button mechanism with the platelets ( 1 ) are connected.