Electricity: electrothermally or thermally actuated switches – Electrothermally actuated switches – Fusible element actuated
Reexamination Certificate
2000-10-24
2003-11-18
Vortman, Anatoly (Department: 2835)
Electricity: electrothermally or thermally actuated switches
Electrothermally actuated switches
Fusible element actuated
C337S227000, C337S159000, C337S290000, C029S623000
Reexamination Certificate
active
06650223
ABSTRACT:
The present invention relates to an electrical fuse element having an essentially ceramic housing which, in the unfired state, is closed around at least one fusible conductor.
Such electrical fuse elements are also referred to as chip fuse elements and designed as surface-mountable devices. Fuse elements of the said type are known, for example, from WO 96/08832. This document discloses a method of producing electrical fuse elements in which fusible conductors are hermetically enclosed in a pressing step between at least one upper ceramic layer and at least one prepared, lower unfired ceramic layer. After dividing up into individual fusible conductor portions, with surrounding housing, this method provides a sintering step and the attachment of external contacts to the end regions of the fusible conductor portions. With the fuse elements produced according to this method of production, it has proved to be disadvantageous in particular that the ceramic housing of the fuse element is exposed to such extremely high internal pressures at the switching-off instant, caused by evaporating fusible conductor material, or in the plasma of an arc, that it can break open.
U.S. Pat. No. 3,197,596 discloses an electric safety fuse component comprising a fusible metallic conductor and non-metallic material where the metallic conductor is directly in fixed connection with a predetermined volume of the non-metallic material. Using fine milled sand as non-metallic material the electric safety fuse component according to U.S. Pat. No. 3,197,596 is used to avoid damage of the housing of the fuse.
It is the object of the present invention to develop a fuse element of the generic type avoiding the aforesaid problems and having reliable electrical contacts ensuring a gas tight manner of the housing as well. It is a further object that the new fuse element allows a cost reducing way of production.
There is therefore the object of developing a fuse element of the generic type in a simple way in terms of production engineering, while avoiding the disadvantages described above.
This object is achieved according to the invention by
the fusible conductor having an electrically conducting component, in particular a metallic wire,
and an insulating, porous component, and
at least one hole in a ceramic layer is located in the region of the fusible conductor and, to form an external contact, the said hole is filled with a conductive paste capable of cofiring and, after a sintering step, forms an electrical connection to the fusible conductor.
A fuse element according to the invention utilizes in its production the property of green, unfired ceramic layers adhesively bonding together and thereby enclosing a fusible conductor in a hermetically sealed manner. Without an additional mechanical treatment of the material, it is consequently scarcely possible to provide closed-off pressure-equalizing chambers with defined properties. This applies in particular since, in known methods of production, a pressing step is preferably used for the reliable adhesive bonding of green ceramic layers arranged one on top of the other. Among the presses used for this purpose are isostatic presses or conventional presses with especially profiled pressing plates, which bring about an intimate bond between the ceramic layers to increase the resistance of the housings to internal pressure.
Irrespective of how the pressing is carried out, it is proposed according to the invention to use a fusible conductor comprising two components, one electrically conducting, the other insulating. The insulating component is in this case porous. To comply with the customary forms in which electrical fuse elements are made, this porous component may be of an elongated design. The fusible conductor is consequently made porous by one of its components and absorbs metallic vapours and excess pressure itself during switching off. If a fusible conductor of the type described above is used and pressing between two unfired, green ceramic layers is carried out, this fusible conductor too is further enclosed in a hermetically sealed manner on its outside. Tests have confirmed, however, that the property of a defined porosity in the component of the fusible conductor material is not lost as a result of the pressing with the ceramic layers. Therefore, an exactly determinable porosity for the absorption of metallic vapours can be provided in a simple way by the material. These voids are in this case preferably located in the direct vicinity of the electrically conducting fusible conductor material to be melted.
If fusible conductor elements of relatively large diameters are used, the enclosing with two green ceramic layers has the effect of making the later ceramic housing convex. Excessive elevation in she region of the fusible conductor of a laminate structure formed by two green ceramic layers can be prevented in particular by the fusible conductor being pressed at least partially into a first green ceramic layer when it is laid onto the latter. If an isostatic press or a press having at least one profiled press plate is used, the elevation around the fusible conductor can be reduced without adverse effects on the stability of the ceramic housing. By this measure, or else by applying in parallel to the fusible conductor strips of green ceramic running on a second, covering green ceramic layer, the surfaces of the ceramic housing can be shaped in such a way that it can also be mounted in SMD processes and in particular not have any preferred mounting surfaces.
According to claim
2
, the insulating component is preferably fibrous and comprises in particular filaments of one or more electrically insulating substances. All materials which have a good electrically insulating effect without the risk of conductive carbon bridges forming under long-term heating or as a result of ageing can in principle be selected for the use according to the invention. Compared with other materials of comparable insulating effect, a porous ceramic material is, however, distinguished in particular by the fact that it offers many voids for the absorption of metallic vapours even at the high temperatures at the switching instant. However, the insulating component preferably comprises ceramic filaments, since a ceramic fibrous material with a large surface area draws considerable thermal energy from an arc on account of its extremely high melting point. Furthermore, the chambers formed for example between the filaments or else in a ceramic paper serve at the switching instant as an excess pressure damping means in the otherwise pressure-tight, closed housing.
In a development of the invention, the fusible conductor comprises a core and a sheath. According to claim
5
, the core can be formed by ceramic filaments. The sheath consists of an electrically conductive material. In a preferred embodiment, the insulating component forms a particularly elongated core, around which the wire is wound. The fusible conductor can consequently have overall the form of a wound fusible conductor, produced according to known methods, as is used for example in the area of glass-enclosed fuses or miniature fuses. Consequently, the effective length of the fusible conductor is also advantageously increased, so that the fuse element according to the invention can be used over a large range of current steps. The production engineering problems occurring in the production of such a wound fusible conductor when producing to a high degree of accuracy and maintaining predetermined fusible conductor characteristics have accordingly long been known and solved. The ceramic filaments hence assume a multiple function in a use according to the invention. On the one hand, they serve in the production of the wound fusible conductor as a support for the thin fusible conductor wire and define the diameter of the wire coil, on the other hand they assume the task of a quenching medium within the finished fuse and consequently act in a similar way to that known, for example, from a sand filling in the case of glass-enclosed f
Jöllenbeck André
Marzinkowski Barbara
Pössnicker Peter
Banner & Witcoff , Ltd.
Vortman Anatoly
Wickmann-Werke GmbH
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