Chemistry: electrical current producing apparatus – product – and – Having specified venting – feeding or circulation structure – Venting structure
Reexamination Certificate
2001-05-15
2004-01-13
Ruthkosky, Mark (Department: 1745)
Chemistry: electrical current producing apparatus, product, and
Having specified venting, feeding or circulation structure
Venting structure
Reexamination Certificate
active
06677075
ABSTRACT:
FIELD OF THE INVENTION
The invention concerns a plug arrangement for making a gas-tight seal on a vent in a storage battery cell composed of a plug that can be used to seal a cell vent.
DESCRIPTION OF THE RELATED ART
Storage batteries are known from the state of the art. They are comprised of different electrodes which, if the storage battery is designed to be multi-cell, are assembled into individual cells and placed in a housing. The housing is closed with a cover on top. The housing cover most often consists of a upper cover and a lower cover, whereby a hollow space for acid deposition is designed between the upper and lower covers. This type of storage battery was described in EP 0 584 528 B1, for example.
In the lead storage batteries generally used for motor vehicles, the electrodes are composed of lead and are designed in the shape of a grid, whereby the mesh of the grid is filled with lead oxide on the positive side and so-called lead sludge on the negative side. Sulfuric acid is generally used as the electrode and can be used either in liquid form or in a type of gel in concentrated form. In the charging process, there are chemical reactions in the electrolytes that also result in the development of gases, inter alia. To counteract an uncontrolled build-up of pressure in the storage battery housing and, in the worst case, an explosive gas release, the storage battery has gas outlet vents to let out the gas. They are most often designed in the cover area.
There are two basic ways of letting out gas known from the state of the art for discharging easily combustible gases that are produced, for example during electrolyte evaporation as a result of charging. For one, the gas can be taken away by discharging it directly through the plugs that close the individual cell vents into the air surrounding the storage battery. Such gas discharge is known from EP 0 756 338, for example. For another, the gas can be discharged through a central degassing line. In this variation of gas discharge, the individual cells of the storage battery are connected to one another via a common, degassing line that is most often built into the battery cover and runs transverse to the cells. Gases to be discharged are let out through the degassing line, most often on the top of the housing cover from the storage battery cover and discharged into the atmosphere. This last degassing variation is known, inter alia, from EP 0 305 822 A1 and U.S. Pat. No. 5,561,001. In both degassing variations just mentioned, the gases to be discharged go through a porous filter disk, the so-called frit, before they go out of the storage battery. It is used, especially, to prevent backflashes of easily combustible gases back inside the storage battery.
If the storage battery is not handled properly or if it is moved out of its normal position as a result of some assembly step that proves necessary and is twisted or tipped, acid will come out of the storage battery cells and run into the hollow space in the housing cover. This is naturally unwanted, and acid, which comes out of the storage battery housing at correspondingly high inner pressure through the degassing vent, is pushed to the outside. This situation is especially adverse when storage batteries used as starter batteries for motor vehicles are moved out of their normal position by twisting or tipping after final assembly for installation in the motor vehicle and as a result of this situation, acid comes out of the battery cells.
SUMMARY OF THE INVENTION
The object of the invention is therefore to prevent the above-mentioned disadvantages by providing a plug arrangement that permits sufficient degassing and at the same time to the greatest possible extent prevents acid from running out when the storage battery is tipped or turned. The plug arrangement should also be economical to produce, easy to mount and able to fit batteries with different structural designs.
To accomplish the object, the invention proposes a plug arrangement for gas-tight closing of a cell vent of a storage battery, composed of a plug that can be used to seal the cell vent, whereby the inside of the cell is connected by fluid mechanics to a hollow space designed between the upper and lower cover of the housing cover for acid deposition through a vent provided with a two-way sealed membrane in the generating surface of the plug.
A storage battery with the plug arrangement in the invention is largely insensitive to acid running out when there are turning or tipping motions. The vent in the generating surface of the plug, which is provided with a sealed membrane, makes it possible to let the gas out of the battery cells, but it effectively prevents unwanted acid from running out of the inside of the cells and running into the hollow space in the housing cover during improper handling or as a result of the battery being tipped during assembly. The two-way sealed membrane thus permits a slow reflux of acid in the event that, because of excess inner pressure—for example if there is overcharging, during the degassing process—acid gets out of the cell and goes into the hollow space in the housing cover. The acid that then collects in the hollow space can go through the sealed membrane in the opposite direction and flow through the vent in the generating surface of the plug back inside the cell.
The design in the invention has the advantage of making sure that acid itself cannot flow out of the storage battery when that is not wanted, if it is tipped or turned out of its normal position. This is a special advantage in the installation of storage batteries used as starter batteries for motor vehicles. Thus, using fully automated assembly plants, the respective storage batteries are installed in the motor vehicles without having to prevent them from being turned or tipped. This ensures that acid does not flow out of the storage battery regardless of the angle at which the storage batteries are turned or tipped when moved for correct positioning and installation.
One feature of the invention is that the sealed membrane has a break-out, at least in one place, forming a vent. This has the advantage of guaranteeing, on one hand, that gas can come out of the inside of the cells unhindered during the degassing process, but, on the other hand, acid in the hollow space in the housing cover can go back inside the cell again. So both acid deposited in the hollow space and acid that penetrates the hollow space unwanted as a result of the battery turning or tipping is fed back inside the cells. The gap-like design of the break-out has turned out to be a special advantage here.
In an alternative proposal, the sealed membrane is made out of two flexible partial membranes set on one side. This type of design also has the advantage of making it possible both for gas to get out and for acid that collects in the hollow space to be fed back. Another feature of the invention is that the partial membrane is arranged so it can swivel in the direction of the hollow space. This arrangement advantageously supports degassing working in the direction of the hollow space. The gaps formed based on the two-piece arrangement of the partial membranes in this alternative also permit a slow reflux of acid that collects in the hollow space. The flexible design of the partial membranes also prevents particles that dissolve in the cell from running into the vent closed by the sealed membrane, so that the gas can be safely discharged from the storage battery under all operating conditions.
Another feature of the invention is that the vent designed in the generating surface of the plug is arranged opposite the access to the hollow space on the plug used in the cell vent. This measure ensures that a ready-to-use storage battery has vents made in the plugs that are positioned in such a way that on one hand, unhindered degassing and, on the other hand, possible acid reflux can take place. Another special advantage of the invention is the lower edge of the vent in the generating surface of the plug is arranged under the lower edge of the vent
Accumulatorenwerke Hoppecke Carl Zoellner & Sohn GmbH & Co. KG
Cantor & Colburn LLP
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