Electrical generator or motor structure – Non-dynamoelectric – Piezoelectric elements and devices
Reexamination Certificate
2001-04-18
2003-01-14
Ramirez, Nestor (Department: 2834)
Electrical generator or motor structure
Non-dynamoelectric
Piezoelectric elements and devices
C310S365000, C310S364000, C310S363000
Reexamination Certificate
active
06507140
ABSTRACT:
PRIOR ART
The invention relates to a piezoelectric actuator, for example for actuating a mechanical component such as a valve or the like, according to the features contained in the preamble to the main claim.
It is generally known that using the so-called piezoelectric effect, a piezoelectric element can be constructed out of a material with a suitable crystalline structure. The application of an external electrical voltage causes a mechanical reaction of the piezoelectric element which, depending on the crystalline structure and the region to which the electrical voltage is applied, produces a compression or tension in a predictable direction. This piezoelectric actuator can be constructed of a number of layers (multilayered actuators), wherein the electrodes via which the electrical voltage is applied are respectively disposed between the layers.
Piezoelectric actuators of this kind can be provided, for example, to drive on-off valves in fuel injection systems in motor vehicles. During operation of the piezoelectric actuator here, particular care must be taken that mechanical stresses in the layer structure do not also cause undesirable fractures to form in the vicinity of the external connecting electrodes. Since the internal electrodes, which are each contacted on one side, are integrated into the layer structure in comb fashion, the electrodes disposed one after another in the direction of the layer structure must be respectively contacted in an alternating fashion on opposite sides from one another. When the piezoelectric actuator is actuated, i.e. when a voltage is applied between the internal electrodes on opposite sides in the layer structure, different mechanical forces are produced in the vicinity of the internal electrodes as well as in the vicinity of the contacts on the external electrodes, which can lead to mechanical stresses and therefore to fractures in the external electrodes.
ADVANTAGES OF THE INVENTION
The piezoelectric actuator described at the beginning, which can be used, for example, to actuate a mechanical component, is advantageously modified by virtue of the fact that with a multilayered structure of ceramic piezoelectric layers with internal electrodes disposed between them, as a first external electrode, a conductive surface is affixed to a respective side surface and is contacted by the respective internal electrodes, and a second net-like, woven cloth like, or wavy external electrode is disposed on the first. The second external electrode is contacted at least at points by the first external electrode and expandable regions are disposed between the contacts.
In the regions between two piezoelectric layers, which have a respective internal electrode that is respectively contacted on the opposite sides from the other, there is a passive zone without an internal electrode layer, wherein according to the invention, the ceramic piezoelectric material—at least in the passive zone —and the material of the second external electrode have virtually equal thermal expansion coefficients.
The first external electrode can be a thin layer, for example a few &mgr;m thick, made of Ni, Ni+Cu, or Ni+PbSn, which adheres directly to the surface of the piezoelectric actuator; the second external electrode here is disposed so as to protect against lateral fractures which can interrupt the current conduction in the external electrode. The lateral fractures can occur in the first external electrode due to delamination in the internal electrodes as a result of tensile stresses in the piezoelectric layers in the passive zone. Through the disposition of the net-like second external electrode, the lateral fractures are stopped and the current conduction, which may have been interrupted in the first external electrode, is bridged.
In addition, when there are rapid temperature changes, for example from −40° C. to +160° C. in the piezoelectric actuator, there is also the possibility of separation of the first external electrode from the piezoelectric ceramic due to excessive shearing stresses when there is too great a difference between the thermal expansion coefficients of the piezoelectric ceramic material and the material of the external electrodes. In particular, due to its greater thickness (approx. 100 &mgr;m), the second external electrode would then exert high shearing forces in comparison to the first layer (approx 5 &mgr;m thick).
In a particularly advantageous manner, the mechanical stresses in the piezoelectric actuator can be reduced if the ceramic piezoelectric layers and the second external electrodes have virtually equal thermal expansion coefficients of approx. 1*10
−6
*1/K to 10*10
−6
*1/K. The ceramic piezoelectric layers can be made of lead zirconate titanate and the second external electrodes can be made of iron-nickel alloys, e.g. Invar. In order to improve ability of this material to be soldered, it can first be coated with a thin (e.g. 5-10 &mgr;m) layer of copper. A Sn-Pb solder layer can then be deposited in order to solder the second external electrode onto the first.
These and other features of preferred modifications of the invention ensue not only from the claims but also from the specification and the drawings, wherein the individual features can be respectively realized singly or multiply in the form of sub-combinations in the embodiment of the invention and in other areas and can represent advantageous and intrinsically patentable embodiments which are claimed herein.
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Hedrich Alexander
Heinz Rudolf
Gonzalez Ramirez Jolio
Ramirez Nestor
Robert & Bosch GmbH
Striker Michael J.
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