Fluent material handling – with receiver or receiver coacting mea – Diverse fluid containing pressure filling systems involving... – Filling with exhausting the receiver
Reexamination Certificate
2001-08-31
2003-07-08
Walczak, David J. (Department: 3751)
Fluent material handling, with receiver or receiver coacting mea
Diverse fluid containing pressure filling systems involving...
Filling with exhausting the receiver
C141S035000, C141S032000, C141S001100
Reexamination Certificate
active
06588460
ABSTRACT:
SPECIFICATION
The invention relates to an apparatus for filling at least one cell of an accumulator with electrolyte, having a vacuum pump for evacuating the cell of the accumulator, and having a filler device for introducing the electrolyte into a fill opening of a cell, and having a container for receiving the entire accumulator, the container communicating with the vacuum pump via a connection stub, so that the accumulator can be put in its entirety under a vacuum, and the filler device has at least one delivery line for the electrolyte, which line is extended in vacuum-tight fashion into the container.
In a number of accumulators, evacuation of the cells before they are filled with electrolyte is necessary. The reason for this is that the filling with the electrolyte, which can for instance also be in gel form, must be done within a reasonably short period of time. Along with the evacuation of the cells, the formation of air pockets in the cells filled with electrolyte for instance in gel form must also be avoided.
Until now, the evacuation especially of multi-cell accumulators was done by evacuating each cell of the accumulator separately via the fill bore, by means of a vacuum connection stub, and when the appropriate vacuum was reached, the electrolyte was introduced into the cell via the same connection stub. A disadvantage of these known apparatuses is that because of the vacuum prevailing in the various cells, deformation of the entire accumulator can occur. Such deformation puts considerable stress on the accumulator housing, for instance on its weld points, so that under some circumstances the accumulator housing can be damaged or even destroyed. Also because of the evacuation of only some cells of the accumulator, the inserts, such as the lead plates, can be pressed hard against one another, so that with this conventional apparatus, damage to the separator cannot be precluded, either. Another essential problem is that because of the deformation of the entire accumulator, it is often impossible to introduce the requisite volume of electrolyte into the individual cells. Furthermore, the known apparatus is mechanically quite complex. The fill opening of each cell has to be sealed off individually. The same is true for the venting bores.
From U.S. Pat. No. 4,061,163, an apparatus with the characteristics recited at the outset is known. This apparatus has a container, in which one or more lithium cells can be disposed so as to be filled with electrolyte. The lithium cells, with their single fill opening pointing downward, are positioned on a stand inside the container. The container is then evacuated, to remove water and water vapor from the cells. Next, the negative pressure is reduced, so that it is above the boiling point of the liquid electrolyte to be introduced. After that, the container is filled with electrolyte, and the inlet openings of the lithium cells dip into the electrolyte. Next, the negative pressure in the containers is brought to atmospheric pressure and then raised to an overpressure, so that the electrolyte can penetrate the lithium cell through the inlet opening. After filling, the inlet opening is hermetically sealed, and the lithium cell is ready for use.
An electrolyte filling apparatus is also known from U.S. Pat. No. 5,356,733. In it, one or more cells of a battery are first subjected to a negative pressure so that they can then be filled with an electrolyte. The special aspect of this apparatus is that a deflection plate is provided below the fill opening of the cell, to prevent the electrolyte from striking the accumulator plates, or the glass mat separators disposed between them, directly. This is intended to provide maximum protection against damage to the cells as the electrolyte flows in. However, it cannot be learned from this patent that the accumulator can be put as a whole under a vacuum and to that end is entirely disposed in a container.
U.S. Pat. No. 5,731,099 or German Patent Disclosure DE 26 04 622 A1 discloses apparatuses with which each cell of the accumulator is evacuated separately via the filling bore by means of a connection stub, and when the applicable vacuum is reached, the electrolyte is introduced into the cell via the same connection stub.
Finally, from German Patent DE 39 12 846 C1, a method for filling electrochemical cells, especially high-performance cells, such as lithium cells, with an electrolyte is known, in which the cell is first evacuated and simultaneously checked for short-circuiting, and if a short circuit is found, the filling operation is discontinued. Once the final vacuum is reached, the cell is then filled with the electrolyte, and at the same time the electrical voltage applied to the cell is monitored, and if a voltage deviation is found, the filling operation is discontinued.
By comparison, the object of the present invention is to improve an apparatus of the type defined at the outset in such a way that while avoided the aforementioned disadvantages, simple, fast evacuation and filling of the cells of the accumulator with electrolyte is made possible.
In the apparatus having the characteristics recited at the outset, this object is attained essentially in that a container for receiving the entire accumulator is provided, and the container communicates with the vacuum pump via a connection stub, so that the accumulator can be put as a whole under a vacuum, and the filler device has at least one and preferably a plurality of delivery lines for the electrolyte that are extended in vacuum-tight fashion into the container.
The advantages attainable with the apparatus of the invention are that because the vacuum is applied to the entire accumulator, the accumulator is not subject to any stresses whatever, and thus no deformation of the accumulator housing occurs. Accordingly, the entire space in the cells and fill openings is available for filling with electrolyte. The filling operation can thus be done faster, and the fill quantity can be optimized. A greater vacuum can also be attained in the container than is possible with the conventional apparatus, since the container can be embodied as extremely vacuum-tight. The major effort and expense for sealing off the fill openings for the individual cells and sealing off the venting bores is also dispensed with. Care must merely be taken that the container itself be sealed off. Air pockets in the electrolyte are also counteracted to an increased extent, since with the apparatus of the invention a greater vacuum is attainable. This improves the quality of the accumulator considerably, especially with regard to spontaneous discharge. Since in the apparatus of the invention the connection stub of the vacuum pump is not disposed directly in the region of the delivery line for the electrolyte, it is also possible to omit an otherwise required acid separator preceding the vacuum pump. The container housing also provides splash protection for the operator, since the accumulator is hermetically enclosed by the container housing during the filling operation.
To make the filling operation easier, the delivery lines especially advantageously have a filler head with an outlet stub on each end. The outlet stub engages the inside of the fill openings of the cells of the accumulator with play, and so the individual cells, with the filler head or outlet stub already located in the filling position, can first be evacuated and then filled with electrolyte.
In a first advantageous feature of the invention, the container can be placed in vacuum-tight fashion on a base plate that supports the accumulator. This provision creates a structurally simple sealing face between the container and the base plate, so that with relatively simple sealing means, a high vacuum can be maintained inside the container.
Especially advantageously, a lifting device is assigned to the container, and by means of it the container can be raised and lowered from the base plate. After the termination of the filling operation, the accumulator is removed from the base plate and replaced with a new acc
Rompel Markus
Wipperfurth Walter
Boukus, Jr. Charles P.
CMW Automation GmbH
Huynh Khoa
Walczak David J.
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