Patent Application
20130099889
The invention concerns a system for thermal safeguarding of an electric device with several components to be monitored or monitoring points.
Monitoring and protecting of electric devices such as circuits, etc., against overheating is a long familiar problem and results from the fact that overloading and electrical aging of electronic components can lead to their damage or destruction due to short circuits, arcing, and so on.
However, a thermal monitoring becomes especially costly or impossible when several components are arranged in a limited construction space—as in the case of circuit boards. For such arrangements, therefore, a solution is usually chosen where each individual component is separately monitored, which makes the monitoring system costly and space-intensive. Furthermore, it is then usually impossible to accomplish a signaling of an overheating or an overloading, e.g., a display on the device or a remotely interrogated system.
The problem of the invention is to create a system for the safeguarding of an electric device in which one can easily accomplish a monitoring or protecting of components or important monitoring points against overheating.
The solution of the problem, according to the invention, is accomplished by the features of the object of patent claim 1. Advantageous modifications of the invention are indicated in the subclaims.
Accordingly, a system for thermal safeguarding of an electric device comprising several components and/or monitoring points to be monitored is characterized in that it comprises at least one thermosensitive element and one actuator coordinated with this thermosensitive element, wherein the thermosensitive element is configured as a sleeve or tube, to which the components or monitoring points to be monitored are thermally coupled, such that it undergoes a change in length or volume above a threshold temperature, and is connected to the actuator such that the actuator triggers an action in dependence on the change in length or volume of the thermosensitive element.
The term “electric device” includes, in particular, electric circuits, circuit boards, etc.
The term “monitoring points” in the sense of the present invention should be understood, in particular, such that certain locations in or at the electric device (even if no component is provided there) are to be thermally monitored. For example, an impermissible heating of conductors or printed tracks due to an overloading by too high a current should be identified.
The term “thermosensitive element” comprises, in the sense of the present invention, especially a material that undergoes a change in length or volume above a threshold temperature, the threshold temperature being the temperature above which the components and/or the electric device are to be protected or guarded against overheating.
The term “actuator” in the sense of the present invention should be taken in a broad sense and comprises, e.g., devices that trigger a signal, which can be mechanical and/or electrical, devices that interrupt or cut off the power supply of the electric device and/or individual components within it.
Such a system has at least one or more of the following advantages in many embodiments of the invention:
With the thermosensitive element it is possible to monitor at the same time several components, preferably all components on the electric device at the same time; this saves space, on the one hand, and is efficient, on the other. The thermosensitive element is so functional that its function is assured even without electric energy, so that the reliability of the system is improved. A signaling of a fault is possible thanks to the thermosensitive element along with the corresponding actuator.
According to one preferred embodiment of the invention, the thermosensitive element is arranged inside a tube that is essentially thermally shape-stable. The term “tube” is to be taken in the broad sense and can also comprise embodiments that are otherwise designated as “sleeve” or “conduit” or “capillary”.
If such an embodiment is chosen, when the thermosensitive element is correspondingly configured, a kind of Bowden cable is produced, so that the transmission of force to the actuator is improved and in particular the thermosensitive element or the tube need not be linear, but instead can be arranged in almost any way on or at the electric device.
According to one preferred embodiment of the invention, the material of the thermosensitive element undergoes a phase transition during the change in length or volume. Such an embodiment has the advantage that the change in length or volume occurs abruptly instead of gradually, i.e., the triggering of the actuator is more reliable.
According to one preferred embodiment of the invention, the material of the thermosensitive element undergoes a contraction during the change in length or volume. For this, it is preferred that the material of the thermosensitive element be chosen such that it contains a thermoplastic material, for example, one that has been cross linked after being extruded, such as the materials that are used in heat-shrink tubing. Suitable thermoplastic materials include polyolefins, PVC or fluorine-containing polymers like polyvinylidene fluoride, Teflon, fluorinated rubbers, etc. Equally preferred materials are shape-memory polymers. Preferably, a material will be chosen that contracts by a factor of 2 to 5 above the threshold temperature; such materials are, e.g., the fluoroelastomers of the Dupont Co. marketed under the brand name Viton. The thermosensitive element can also contain a shape-memory metal.
According to an alternative preferred embodiment of the invention, the material of the thermosensitive element undergoes an expansion during the change in length or volume. Here as well, the use of thermoplastic materials, shape-memory polymers and/or shape-memory metals is especially preferred.
According to one preferred embodiment of the invention, the thermosensitive element is provided as a liquid or viscous material inside the tube, fashioned as a capillary.
In this embodiment, it is especially advantageous for the thermosensitive element to contain a viscous material such as oil, wax, paraffin or suitable metals or alloys, such as lead and/or tin.
Preferably in this embodiment the capillary is closed at one end, and the actuator is arranged at the other end. This can be, e.g., a movable piston or a membrane. The change in length or volume of the thermosensitive element then acts directly on the actuator, which then brings about, e.g., a signal or an interruption.
According to one preferred embodiment of the invention, the change in length or volume of the thermosensitive element is reversible.
The aforementioned components as well as those claimed in the sample embodiments and to be used according to the invention are subject to no special boundary conditions in terms of their size, shape, choice of material and technical design, so that the criteria of selection known in this area of application can be applied without limitation.
Further details, features and advantages of the object of the invention will emerge from the subclaims, as well as the following description and accompanying drawings, in which several sample embodiments of the system of the invention are depicted—as examples. The drawing shows
Alternatively, of course, it is also possible to lead the thermosensitive element 2 by segments across rollers, etc., when no monitoring is required in this segment. But in the present instance, the thermosensitive element 2 should be arranged so that a tension on the actuator 3 arises when a component is overheated.
According to another embodiment not shown in the drawing, the tube or sleeve is fashioned as a capillary. By analogy with
The individual combinations of the constituent parts and the features of the already mentioned embodiments are given as examples; exchanging and substitution of this teaching with other teachings contained in this publication will also be considered expressly with the cited publications. The skilled person is aware that variations, modifications and other configurations that are described here can likewise occur without deviating from the notion of the invention and its scope.
Accordingly, the above description is an example and not to be taken as limiting. The word “comprise” used in the claims does not exclude other components or steps. The indefinite article “a” does not exclude the meaning of a plural form. The mere fact that certain measures are repeated in different claims does not mean that a combination of these measures cannot be used to advantage.
support bearing 1
thermosensitive element 2
actuator 3
signal transmission 4
tube 5
monitored components T1, T2, TN
| Number | Date | Country | Kind |
|---|---|---|---|
| 1020100137677 | Mar 2010 | DE | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/EP2011/055022 | 3/31/2011 | WO | 00 | 12/4/2012 |
