DE102008025031A1 - Electrode grid for holding active mass of lead-acid-storage battery, has grid part connected with another grid part that is made of lead and/or lead alloy, where former grid part and third grid part are made of plastic - Google Patents

Abstract

The grid (1) has a grid part (3) connected with another grid part that is made of lead and/or lead alloy. The grid part (3) and a third grid part (4) are made of plastic, and the latter grid part is arranged between the grid parts (3, 4). The grid parts (3, 4) are connected with each other in a detachable manner. The grid parts (3, 4) exhibit frames and bars (6, 9) that are connected with the frames as a single piece. The bars are arranged in a displaced manner in an elevated direction (16) of the grid parts (3, 4).

Description

The The invention relates to an electrode grid for a lead-acid accumulator, which the inclusion of an active mass is used.

Lead-acid accumulators as such, as well as electrode grid for such accumulators are out The prior art is well known in itself, which is why it is a separate printed proof at this point is not required.

Lead-acid accumulators usually have a large number of cells. Each of these accumulator cells has at least two electrodes, each electrode being an electrode grid which is provided with an active mass, wherein these active mass is carried by the electrode grid.

The Known from the prior art electrode grid of lead-acid batteries made of lead and / or a lead alloy. There is one from the Known prior art electrode grid for proper recording an active mass of a frame on the one hand and carried by it Struts on the other hand, which are aligned transversely to each other. Usually stand the struts perpendicular to each other.

The known from the prior art electrode grid are integrally formed, for example by casting, so that one consisting of frame and struts, one-piece construction component arises, which then in a further process step with the active Mass can be provided.

Although electrode grid of the type described above in the everyday Proven practice there is room for improvement, especially with regard to on a desirably to be achieved weight reduction and in terms of a simplified Handling.

It is therefore the object of the invention to provide an electrode grid, which is designed to reduce weight and allows for simplified handling.

to solution This object is proposed with the invention, an electrode grid for a lead acid accumulator, which serves to receive an active mass, with a first Grid part and a second grating part connected thereto, wherein the first grid part is formed of lead and / or a lead alloy is.

in the In contrast to previously known lead-electrode gratings, the electrode grid according to the invention exists from at least two grid parts. So it's not one-piece but is characterized by its multi-part structure.

Just one of the two lattice parts of the electrode grid according to the invention, namely the first grid part is formed of lead and / or a lead alloy. The second grid part may be made of a different material, for example, made of plastic. In this way, one over conventional electrode grids significant weight reduction can be achieved.

The second grating part can also depending on the desired application made of metal, for example a light metal or a high temperature resistant material, such as ceramic. Preferably, the material has However, the second lattice part has a lower density than the material on, from which the first grid part is formed, so that in difference the prior art, a weight reduction and thus a simplified handling both in production and for later use allows is.

According to one preferred embodiment of Invention, a further, third grid part is provided, the consists of the same material, from which also the second part of the grid is formed. The two lattice parts, that is the second and the third Lattice part take the lead and / or lead alloy formed, first grid part sandwiched between and form together the finally usable electrode grid.

The the second and the third grid part are preferably made of plastic formed and can releasably locked together with the interposition of the first grid part become. This is also for reasons a later one Recycling is an advantage.

One Each of the two plastic mesh parts consists of a frame and thus preferably in one piece trained struts, with respect to the current discharge direction, this means in the height direction of the electrode grid preferably transversely. There are these cross struts of the second grid part and the third grid part in the height direction the electrode grid preferably offset from each other, and that by half the distance between the struts of a grille part.

The first, that is to say the lattice part formed from lead and / or a lead alloy, in turn has rod-shaped sections which extend in the current-carrying direction, that is to say in the height direction of the electrode grid. Einendseitig these rod-shaped portions are electrically conductively connected to each other, for example by means of a connecting element, preferably in one piece with is formed the rod-shaped sections. The connecting element further carries a preferably integrally formed electrical connection component, for example in the form of an appendage to be designated as a flag.

The second and third grid part can be considered two halves of a Support frame understood in the final assembled state the electrically conductive, that is the lattice part consisting of lead and / or a lead alloy receives. The two halves of the support frame, the does that mean second and the third grid part, the first grid part preferably at least partially positive between itself on, so without further connecting means and / or fastening devices it is ensured that the first grid part in its relative Position is positioned to the second and third grid part.

The formed according to the invention Electrode grid proves due to its above-described embodiment across from in particular known from the prior art electrode gratings therefore advantageous because it is designed to reduce weight. About that In addition, it is cheaper to manufacture, since a reduced Material use of lead and / or lead alloys is required. Due to the halves of the preferably formed of plastic Support frame, that is is formed of plastic second and third lattice part a circumferential edge insulation with respect to the first lattice part created, so given a short-circuit protection against deposited active masses is. Short-circuit preventing measures, such as these are required in constructions known from the prior art are, can Therefore omitted in an advantageous manner, which is why the inventive design also for that reason as being particularly economical and easy in the handling proves.

With the electrode grid according to the invention a total of an electrode grid is created, accordingly lead and / or Lead alloys only for the electrical discharge are used. Support and support elements for the active Mass or for stabilization of the finished electrode grid are made of plastic. This will result in a cost reduction achieved by material diversification. In addition, results in an advantageous Way a weight reduction.

Further Advantages and features of the invention will become apparent from the following Description with reference to FIGS. Show

1 in a schematic perspective view of an electrode grid according to the invention and

2 in a schematic perspective view of the individual structural components of the electrode grid according to the invention 1 ,

In 1 is a schematic perspective view of the electrode grid according to the invention 1 shown. This is, as in particular the explosive representation after 2 can be seen from a first grid part 2 , a second grid part 3 and a third grid part 4 educated. In the final assembled state take the second grille part 3 and the third part of the grid 4 the first grid part 2 sandwiched between, like this particular 1 is apparent.

The first part of the grid 2 is made of lead and / or a lead alloy. It is used for electrical discharge and has in the direction of current, that is in the vertical direction 16 the electrode grid extending rod-shaped sections, which as rods 11 can be designated. These bars 11 are connected at one end electrically conductive with each other, by means of a connecting element 12 which preferably integrally with the rods 11 is trained. The connecting element 12 also carries one as a flag 13 trained extension, which serves the electrical contact.

The second part of the grid 3 and the third part of the grid 4 each made of plastic.

The second part of the grid 3 has a frame 5 , preferably struts integrally connected thereto 6 wearing. With reference to the drawing plane 2 the frame carries 5 a connection tab on the underside 7 ,

The third part of the grid 4 is in correspondence of the second lattice part 3 trained and has a frame 8th , preferably integrally connected struts 9 and a connecting strap 10 ,

As in particular the representation after 1 recognize, are the aspirations 6 of the second lattice part 3 and the struts 9 of the third lattice part 4 in the height direction 16 formed offset from one another, preferably by half of the respective strut distance, so that in the final assembled state, a uniform grid structure is formed.

The second part of the grid 3 and the third part of the grid 4 are preferably with interposition of the first lattice part 2 releasably connected to each other, for which purpose, for example, latching connections can be provided, which are of the respective frame 5 respectively. 8th and / or from the respective connecting strap 10 respectively. 12 of the second lattice part 3 or the third grid part 4 are provided.

The first part of the grid 2 is preferably at least partially positive fit both to the second grating part 3 as well as the third part of the grid 4 formed so that it is ensured in a simple manner that the first grid part 2 in the final assembled state of the electrode grid 1 in its relative position to the other two parts of the grid 3 and 4 is fixed.

The second part of the grid 3 and the third part of the grid 4 has in the frame 5 respectively. 8th with reference to the drawing plane 2 on the upper side in each case via a recess 14 respectively. 15 , In the final assembled state form these recesses 14 and 15 a passage, through which the flag 13 of the first lattice part 2 sticks out, as this is the representation after 1 lets recognize.

The formed according to the invention Electrode grid is characterized in particular by its weight reduction across from known from the prior art, exclusively from Lead and / or lead alloy formed electrode grid. This also has an advantageous cost-reducing effect and allows about that In addition, a simplified handling both in the production as also with regard to the later ones Use in a lead acid accumulator, of course when using inventively designed electrode gratings also weight-reduced, in contrast to the prior art is trained.

1

electrode grid

2

first grating part

3

second grating part

4

third grating part

5

frame

6

strut

7

connecting strap

8th

frame

9

strut

10

connecting strap

11

Rod

12

connecting element

13

flag

14

recess

15

recess

16

height direction

Claims (10)

Electrode grid for a lead-acid accumulator, which serves to receive an active mass, with a first grid part ( 2 ) and a second grating part ( 3 ), wherein the first grid part ( 2 ) is formed of lead and / or a lead alloy. Electrode grid according to claim 1, characterized by a further, third grid part ( 4 ). Electrode grid according to claim 2, characterized in that the second and the third grid part ( 3 . 4 ) are formed of plastic. Electrode grid according to claim 2 or 3, characterized in that the first grid part ( 2 ) between the second and the third grid part ( 3 . 4 ) is arranged. An electrode grid according to claim 2, 3 or 4, characterized in that the second and the third grid part ( 3 . 4 ) are preferably releasably connected to each other. Electrode grid according to one of the preceding claims 2 to 5, characterized in that the second and the third grid part ( 3 . 4 ) the first grid part ( 2 ) at least partially form-fitting record between them. Electrode grid according to one of the preceding claims 2 to 6, characterized in that the second and the third grid part ( 3 . 4 ) one frame each ( 5 . 8th ) and with the frame ( 5 . 8th ) preferably integrally connected struts ( 6 . 9 ) exhibit. An electrode grid according to claim 7, characterized in that the struts ( 6 . 9 ) of the second and the third grid part ( 3 . 4 ) preferably in the height direction ( 16 ) of the lattice parts ( 3 . 4 ) are offset from one another. Electrode grid according to one of the preceding claims, characterized in that the first grid part ( 2 ) in the current-carrying direction extending rod-shaped sections ( 11 ), which are connected at one end electrically conductive. Electrode grid according to one of the preceding claims, characterized in that the rod-shaped sections ( 11 ) of the first grid part ( 2 ) across to the struts ( 6 ) of the second lattice part ( 3 ) and / or the pursuit ( 9 ) of the third grid part ( 4 ).