SPACE-SAVING ISOLATING ARRESTER

Abstract

The invention relates to a space-saving isolating arrester, having for at least two electronic components (EB.sub.1, EB.sub.2) to be monitored, with the electronic components to be monitored being fastened to a carrier (P) using a thermally softenable fixing means, with an energy accumulator (D.sub.1,D.sub.2) being arranged on each of the electronic components which—when a thermally softenable fixing means softens—displaces the associated electronic component substantially parallel to the carrier (P), thereby disconnecting the associated electronic component, and also having a mechanically displaceable display means (ANZ), with the mechanically displaceable display means indicating that one or more of the electronic components to be monitored has been disconnected, and with the mechanically displaceable display means (ANZ) being displaced by a disconnecting electronic component.

Claims

1. A space-saving isolating arrester, having for at least two electronic components (EB.sub.1, EB.sub.2) to be monitored, with the electronic components to be monitored being fastened to a carrier (P) using a thermally softenable fixing means, with an energy accumulator (D.sub.1,D.sub.2) being arranged on each of the electronic components which—when a thermally softenable fixing means softens—displaces the associated electronic component substantially parallel to the carrier (P), thereby disconnecting the associated electronic component, and also having a mechanically displaceable display means (ANZ), with the mechanically displaceable display means indicating that one or more of the electronic components to be monitored has been disconnected, and with the mechanically displaceable display means (ANZ) being displaced by a disconnecting electronic component.

2. The device as set forth in claim 1, wherein the mechanically displaceable display means (ANZ) has a device (F) for fixing the mechanically displaceable display means (ANZ) in the starting position.

3. The device as set forth in claim 1, wherein the isolating arrester has a device (F) for fixing a disconnected electronic component to be monitored in a disconnected state.

4. The device as set forth in claim 2, wherein the fixing device (F) and the mechanically displaceable display means (ANZ) are integrally formed, with the fixing device (F) being flexible relative to the mechanically displaceable display means (ANZ).

5. The device as set forth in claim 1, wherein the space-saving isolating arrester has a housing (G), with first guide means (FG) being provided in the housing in order to guide the mechanical display means (ANZ).

6. The device as set forth in claim 1, wherein the space-saving isolating arrester has a housing (G), with second guide means being provided in the housing in order to guide an electronic component to be disconnected.

7. The device as set forth in claim 1, wherein the energy accumulators (D.sub.1,D.sub.2) are springs.

8. The device as set forth in claim 1, wherein the mechanically displaceable display means (ANZ) makes a change in color and/or a change in transmission available.

9. The device as set forth in claim 1, wherein the space-saving isolating arrester has devices for mounting on a supporting rail.

10. The device as set forth in claim 1, wherein the electronic components are selected from the group which includes varistors, TVS diodes, or gas-filled overvoltage arresters.

11. The device as set forth in claim 1, wherein the thermally softenable fixing means has a solder and/or an adhesive.

12. The device as set forth in claim 1, wherein the housing (G) and/or the mechanically displaceable display means (ANZ) is made of a plastic material.

13. The device as set forth in claim 1, wherein several space-saving isolating arresters arranged next to one another provide a common fault reporting (FM) in the normal direction toward the carrier.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] The invention is explained in further detail below with reference to the figures.

[0017] FIG. 1 shows a schematic cross section of an isolating arrester according to the invention in an exemplary first state,

[0018] FIG. 2 shows a schematic cross section of the isolating arrester according to the invention in an exemplary second state, and

[0019] FIG. 3 shows a schematic cross section of the isolating arrester according to the invention in an exemplary third state.

DETAILED DESCRIPTION

[0020] The figures show an exemplary space-saving isolating arrester 1 according to embodiments of the invention. The illustrations show an arrangement with two components EB.sub.1 and EB.sub.2 to be monitored, but the invention is not limited to this. That is, the functional principles can also be implemented with only one electronic component EB.sub.1 to be monitored and with more than two components EB.sub.1, EB.sub.2 to be monitored.

[0021] The electronic components EB.sub.1, EB.sub.2 to be monitored are fastened to a carrier P—a circuit board, for example—using a thermally softenable fixing means. The thermal fixation can also perform other functions, such as the establishing of an electrical connection, for example.

[0022] An energy accumulator D.sub.1, D.sub.2 is arranged on each of the electronic components EB.sub.1, EB.sub.2. That is, energy accumulator D.sub.1 is arranged on the electronic component EB.sub.1, while energy accumulator D.sub.2 is arranged on the electronic component EB.sub.2.

[0023] If a thermally softenable fixing means is now softened on an electronic component, the energy stored is released from the associated energy accumulator and the associated electronic component is displaced substantially parallel to the carrier P, thus disconnecting the associated electronic component.

[0024] While FIG. 1 shows the initial state, i.e., the non-tripped state, the electronic component EB.sub.1 to be monitored has been tripped in FIG. 2. In other words, the thermal fixing means for the carrier P has softened, and the electronic component EB.sub.1 to be monitored has been displaced by the energy from the energy accumulator D.sub.1 parallel to the carrier. The electronic component EB.sub.1 to be monitored has thereby been separated from its electrical connections (not shown). In FIG. 3, in turn, both the electronic component EB.sub.1 to be monitored and the electronic component EB.sub.2 to be monitored are tripped. The electronic component EB.sub.1 to be monitored has thereby been separated from its electrical connections (not shown). Likewise, the electronic component EB.sub.2 to be monitored has been simultaneously separated from its electrical connections (not shown).

[0025] Moreover, the exemplary space-saving isolating arrester 1 also has a mechanically displaceable display means ANZ, with the mechanically displaceable display means indicating that at least one of the electronic components to be monitored has been disconnected, and with the mechanically displaceable display means ANZ being displaced by a disconnecting electronic component.

[0026] With the design described above, it is possible to provide a space-saving isolating arrester that can also be produced cost-effectively. In a viewing window S of a housing G, for example, the space-saving isolating arrester 1 shows a change in color and/or transparency. This change serves as a local indicator for operability/inoperability.

[0027] Thus, in the event of unacceptable heating of at least one of the electronic components, it is now possible to disconnect the respective electronic component with little installation space being required. The device can shut down reliably even in the event of large temperature increases. What is more, the device is cost-effective to manufacture. In addition, the disconnection of an electronic component or of several electronic components can be signaled.

TABLE-US-00001 Electronic Electronic Viewing component EB.sub.1 component EB.sub.2 window S not disconnected not disconnected OK disconnected not disconnected defective not disconnected disconnected defective disconnected disconnected defective

[0028] In one advantageous embodiment, the mechanically displaceable display means ANZ has a device F for fixing the mechanically displaceable display means ANZ in the starting position. That is, in FIG. 1 the fixing device F has the effect that the mechanical display means is held by the electronic component EB.sub.1 fixed on the carrier P (and also by the electronic component EB.sub.2 fixed on the carrier P).

[0029] In other words, the display means can simply be set in place with the electronic components to be monitored after the mounting of the carrier P. As a result, manufacturing costs can be kept low.

[0030] In another advantageous embodiment, the isolating arrester 1 for a disconnected electronic component to be monitored has a fixing device F in a disconnected state.

[0031] In FIG. 2, for example, the fixing device F is embodied such that the disconnected electronic component EB.sub.1 is held in the (closed) housing by means of a fixing device F, so that it does not have any contact to its electrical connections. It is demonstrated in FIG. 3 that the fixing device F can be embodied such that any disconnected electronic component EB.sub.1, EB.sub.2 is held in the (closed) housing by means of a fixing device F, so that it does not have any contact to its respective electrical connections. It should be noted that the design as shown in the figures also makes it possible—after the first electronic component EB.sub.1 has been disconnected, for example—for the second electronic component EB.sub.2 to also be disconnected but nonetheless held securely by the fixing device F (as shown in FIG. 3).

[0032] The fixing device F prevents tripped, disconnected electronic components from producing short circuits elsewhere.

[0033] Alternatively or in addition, a “trapping” solder pad can also be provided on the carrier P, so that any residual liquid solder on the connections of the tripped electronic component is cooled there, thereby fixing the disconnected electronic component.

[0034] In another advantageous embodiment, the fixing device F and the mechanically displaceable display means ANZ are integrally formed, with the fixing device F being flexible relative to the mechanically displaceable display means ANZ. As can be seen in comparing FIG. 2 and FIG. 3, manufacturing costs can be kept low in this way.

[0035] For the purpose of fixation in the initial state or final state, the fixing devices F are embodied as chamfers, so that a “tripped” electronic component can slide together with the mechanically displaceable display means ANZ past a non-“tripped” electronic component (see FIG. 2).

[0036] Moreover, in one embodiment of the invention, first guide means FG can also be provided in the housing G in order to guide the mechanical display means. For example, they can be integrally formed inexpensively in an injection-molding process.

[0037] In another advantageous embodiment of the invention, second guide means can also be provided in the housing in order to guide an electronic component to be disconnected.

[0038] In an advantageous embodiment of the invention, the energy accumulators D.sub.1, D.sub.2 are springs. After the fixation of the electronic components EB.sub.1 and EB.sub.2 these can be introduced at low cost, thus eliminating the need for a laborious fastening of the electronic components EB.sub.1 and EB.sub.2 during fixation on the carrier P.

[0039] The space-saving isolating arrester can be easily provided with devices for mounting on a supporting rail.

[0040] The invention is suitable for all types of electronic components to be monitored. In particular, the electronic components are selected from a group which includes semiconductors, particularly varistors, TVS diodes, or gas discharge tubes.

[0041] In another advantageous embodiment of the invention, the thermally softenable fixing means has a solder or an adhesive. That is, the electronic component can be fixed on the carrier P by means of a thermally softenable solder, which also provides an electrical connection. Alternatively or in addition, a thermally softenable adhesive can also fix the electronic component on the carrier P.

[0042] The housing G and/or the mechanically displaceable display means ANZ are preferably made of a plastic material.

[0043] Without limiting the generality, a provision can also be made that each of the isolating arresters 1 has its own telecommunication device. This enables faults to be additionally reported to a remote user.

[0044] Alternatively or in addition, passive optical summary remote signaling can also be provided for several adjoining isolating arresters 1 according to the invention. This is apparent from FIG. 1, in which a remote signaling port FM that is open in the initial state and covered in the event of a fault (FIGS. 2 and 3) is provided in the housings G. If the adjoining isolating arresters 1 according to the invention are now arranged next to one another (on a rail) such that a light beam can pass through all of the remote signaling ports, the reflection or lack of transmission can be evaluated as a common alarm by means of a light-sensitive element, thus making a cost-effective common alert available. That is, when several space-saving isolating arresters 1 are arranged next to one another, they provide a common fault reporting in the normal direction toward the carrier P.

LIST OF REFERENCE SYMBOLS

[0045] Isolating arrester 1 [0046] Electronic components EB.sub.1, EB.sub.2 [0047] Carrier P [0048] Energy accumulators D.sub.1, D.sub.2 [0049] Mechanically displaceable display means ANZ [0050] Fixing device F [0051] Viewing window S [0052] Housing G [0053] Guide means in the housing FG [0054] Remote signaling window FM