DE3207545C1 - Test equipment for testing an accumulator - Google Patents

Abstract

In a test equipment for testing lead connections (5) between the cells (2) of an accumulator (1), having two electrodes (7) which can be pressed like tongs against one side of the lead connection (5), with spring pressure on in each case one side of the lead connection (5), simultaneous checking of all the lead connections in an accumulator is achieved in that a number of electrode pairs (7) corresponding to the number of lead connections (5) in the accumulator (1) are arranged on a common mounting plate (10), in that the electrodes of each electrode pair (7) have operating levers (8) which are parallel to one another and are supported such that they can be displaced parallel to one another, in that the operating levers (8) have wall pieces (25) which are inclined at their top pointing towards one another and run away from one another upwards, and in that wedge-shaped operating devices (9) are arranged above the electrode pairs (7), which operating devices can be moved downwards together against the inclined wall pieces (25) and in this way press the operating levers (8) apart in their parallel guide (20, 21, 22). <IMAGE>

Description

A simple and functionally reliable design of the parallel guide the operating lever can be moved by two vertically spaced guide rods train that in stationary with the mounting plate connected blocks are stored, the blocks and the respective adjacent operating lever vertical have arranged between the guide rods blind holes in which between the relevant block and the associated operating lever each have a compression spring is inserted. This means that every actuating lever - and thus every electrode - pressed against the lead connector. The compression springs can be on the one hand Arrange spatially compact between the guide rods and cause on the other hand in this arrangement a high level of functional reliability due to a favorable distribution of forces between the guide rods. This arrangement described continues to offer The advantage that the pair of electrodes with the blocks form a pluggable unit leaves, with the blocks in appropriately milled depressions in the base can be used.

It is advantageous if the guide rods outside the blocks have a larger diameter than in the blocks because the guide rods in this case define the distance between the two blocks.

For the automatic checking of different types of accumulators, So, for example, after a change in the production line, it is advantageous to if oversized openings are provided in the mounting plate for the electrode pairs are and when the electrode pairs with the actuating levers mounted so that they can be moved in parallel adjustable as a pre-assembled unit with a flange-like connection in the opening can be connected to the mounting plate. This embodiment is particularly for large types of accumulators are important, which experience shows are not continuous but are manufactured in batches.

The invention is illustrated below with reference to one shown in the drawing Exemplary embodiment will be explained in more detail. It shows F i g. 1 a pulse device for an accumulator, FIG. 2 shows a sectional view of a pair of electrodes of the test device, F i g. 3 shows a schematic representation of the arrangement of a preassembled unit in a mounting plate with oversized openings, FIG. 4 is a plan view of FIG The arrangement from FIG. 3.

F i g. 1 shows an accumulator 1 with six accumulator cells 2. Between the battery cells there are five partition walls 3, which are circular Openings 4 are provided through which an electrical connection by means of a lead connector 5 takes place (Fig. 2). The circular openings are in the illustration the F i g. 1 alternately in front and behind.

A test device 6 for testing the lead connector 5 accordingly the number of lead connectors 5 has five pairs of electrodes 7. These are with the top protruding operating levers 8 provided, which by means of a wedge-shaped actuator 9 can be pushed apart. In Fig. 1 are only the actuators 9 shown for the electrode pairs 7, with which the in F i g. 1 in front Lead connector 5 must be checked.

The electrode pairs 7 are on a common mounting plate 10 mounted, with the actuating cylinder 12 for via a frame-shaped connection 11 the actuating members 9 connected to one another via a plate 13.

F i g. 2 illustrates in detail the structure of the arrangement for a Electrode pair 7. The electrodes point at their lead connector 5 facing Side a cylindrical projection 13 with a conical tip 14. One corresponding recess 15 is provided on both sides of the lead connector.

The electrodes are attached to operating levers 8, which are parallel each other upward through an opening 16 of the mounting plate 40 extend. With of the mounting plate 10 are two arranged on both sides outside of the actuating levers 8 Fixed blocks 17 connected vertically to each other two through holes 18 and have a blind hole 19 between these through bores 18. The through holes 18 each receive a guide rod 20 extending from a block 17 the two actuating levers 8 extend through into the other block 17.

Outside the blocks, the diameter of the guide rods 20 is larger than in the blocks 17, so that the operating lever 8 holes 21 with a larger Have diameters than the bores 18.

In the holes 21 are still guide sleeves 22 to improve the Slideway used.

Blind holes 23 in the actuating levers are aligned with the blind holes 19 8. In the space formed by the blind holes 19, 23 there is a compression spring in each case 24 used so that the operating lever 8 with a mutually directed Are provided with bias.

At their upper end, the actuating levers 8 have mutually facing, beveled and downwardly tapering wall pieces 25, the bevel of the Bevel of the wedge-shaped actuator 9 is adapted.

For introducing the electrode pairs 7 into the accumulator cells 2 the actuators 9 are moved together downward, so that the actuating lever 8, and thus the electrode pairs 7, are pressed apart against the action of the compression springs 24 will. After lowering the entire device into the measuring position (Fig.2) the actuators 9 move upwards, so that under the action of det compression spring 24 the electrodes are pressed into the recesses 15. As the electrode pairs 7 are guided in parallel by the guide rods 20 and the actuating lever 8, is a lateral shift of the symmetry axis of the pair of electrodes 7 opposite the cell wall 3 is not critical, since these displacements by the compression springs 24 are automatic be balanced.

After the measurement has been carried out, the actuator 9 is again driven on the inclined wall parts 25 and thus the operating lever 8 and the Electrode pairs 7 pressed apart. By relative movement of the accumulators 1 opposite the pair of electrodes 7, the accumulator is removed from the measuring device, so that the lead connector 5 of the next accumulator 1 can be tested.

The F i g. 3 and 4 show schematically a modified arrangement, in which an oversized opening 16 'is provided in the mounting plate 10. The oversize the opening 16 'serves the pre-assembled arrangement of the actuating lever 8 with to design the blocks 17 ', which here form a flange-like arrangement, to be displaceable, so that the test device 2 on different battery sizes (spacing of the battery walls, Width of the accumulator walls) can be adjusted. The flange-like arrangement 17 'has four elongated holes 26 for this purpose, which are used for screw fastening the flange-like Arrangement 17 'on the mounting plate 10 are used. The elongated holes allow one certain displacement of the arrangement 17 'parallel to the plane of symmetry 27 of the actuating lever 8th.

An adjustment perpendicular to this plane 27 is possible because that the mounting plate has a plurality of laterally offset threaded holes 28 which for receiving the protruding through the elongated holes 26 screws (not shown) to serve.

This means that the preassembled arrangement can be adjusted using the actuating levers 8 and their bearing blocks 17, 17 'in both coordinate directions in the plane of Mounting plate 10 possible.

Claims (5)

Claims: 1. Tester for testing lead compounds (5) between the cells (2) of an accumulator (1), with two electrodes (7), the Like pliers under spring pressure on each side of the lead connection (5) against These can be pressed, that is, on a common Mounting plate (10) one of the number of lead connections (5) of the accumulator (1) Corresponding number of pairs of electrodes (7) are arranged that the electrodes each Electrode pairs (7) have actuating levers (8) that are parallel to one another, which are mounted displaceably parallel to each other, that the actuating lever (8) beveled, upwardly diverging, facing one another on their upper side Wall pieces (25) have and that above the electrode pairs (7) wedge-shaped actuating members (9) are arranged, which together against the beveled wall pieces (25) according to are movable below and thereby the actuating lever (8) in their parallel guidance Press (20, 21, 22) apart. 2. Testing device according to claim 1, characterized in that both actuating levers (8) a pair of electrodes (7) under the action of a spring (24) of a bias are placed in the direction of the other operating lever (8). 3. Test device according to claim 1 or 2, characterized in that the parallel guidance of the operating lever (8) by two vertically spaced apart Guide rods (20) are formed which are fixedly connected to the mounting plate (10) Blocks (17) are stored, and that the blocks (17) and the adjacent Actuating lever (8) blind holes arranged vertically between the guide rods (20) (19, 23) between the relevant block (17) and the associated Actuating lever (8) each has a compression spring (24) inserted 4. Test device according to Claim 3, characterized in that the guide rods (20) outside the blocks (17) have a larger diameter than in the blocks (17). 5. Test device according to one of claims 1 to 4, characterized in that that in the mounting plate (10) for the electrode pairs (7) oversized openings (16 ') are provided and that the electrode pairs (7) with the parallel displaceable mounted Actuating levers (8) as a pre-assembled unit with a flange-like connection (17 ') in the opening (16') are adjustably connectable to the mounting plate (10). The invention is based on a test device for testing lead compounds between the cells of an accumulator, with two electrodes, which are tong-like underneath Spring pressure on each side of the lead connection can be pressed against this. Such a test device is known from DE-OS 2905 142. To the Verification of the proper function of the cast lead connection is carried out by this sent an electric current and thus the electrical resistance of the Lead compound determined. This can lead to production errors in the lead compounds, in particular Blowholes are quickly recognized, so that a faulty accumulator, its lead compound would likely break in the event of shocks, will not be delivered. That known testing device consists of a pair of pliers in the form of a pivot point with one another connected lever, between which a compression spring is arranged, which the electrodes press against each other at the lower end of the pliers. The electrodes are shaped that they engage in correspondingly formed depressions in the lead compound, so that a reproducible and reliable measurement is possible. The known test device is only suitable for checking a single one Lead connection, so that a large number of tests are required for an accumulator is. For example, a 24-volt battery with twelve cells has eleven connections being checked. The test work is therefore very labor-intensive and time-consuming. In contrast, the invention is based on the object of a test device of the type mentioned at the beginning, with which a fast and automatic Examination is possible. This object is achieved in that on one common mounting plate one of the number of lead connections of the accumulator Corresponding number of electrode pairs are arranged that the electrodes of each electrode pair have operating levers which are parallel to one another and which are parallel to one another are slidably mounted that the actuating lever facing one another on their upper side have beveled, upwardly diverging wall pieces and that above of the electrode pairs wedge-shaped actuators are arranged, which together can be moved downwards against the beveled wall pieces and thereby the actuating lever push apart in their parallel guidance. All lead compounds can be tested with the test device according to the invention check the accumulator at the same time. Since the electrode pairs only through the wedge-shaped Actuator controlled is a fully automatic check without manual Intervention possible. For the correct operation of the electrode pairs by a wedge-shaped actuating member is a parallel one in the test device according to the invention Guidance of the electrodes is provided, which is opposite to the pincer-shaped configuration of the electrode pair can be actuated more reliably and a safe guidance against which enables lead compounds in any case. The pair of electrodes does not have to be as critically adjusted directly above the lead connector as with the pincer-shaped Design of the test device because the electrodes on the one hand are not on a Move a circular path, but only move it parallel and because the measurement does not thereby is impaired that the electrodes different long paths due to a not exactly centering back to the lead connector. Both actuating levers are therefore preferably one pair of electrodes under the action of a spring a bias towards the other Actuating lever exposed.