WO2008092469A1

WO2008092469A1 - Fuse, analysis device, and system with at least one fuse and at least one analysis device

Info

Publication number: WO2008092469A1
Application number: PCT/EP2007/000744
Authority: WO
Inventors: Georg BÖSL; Rainer Keil
Original assignee: Siemens Aktiengesellschaft
Priority date: 2007-01-29
Filing date: 2007-01-29
Publication date: 2008-08-07

Abstract

A novel fuse (100, 200) has at least one transponder (119, 120) which is designed to transmit a signal readable via radio. The fuse (100, 200) is designed to act on the transponder (119, 120) in such a way that when the fuse is tripped, said transponder can no longer send a signal readable via radio or a modified signal readable via radio. The fuse can be monitored with an analysis device (300) which is designed to detect the tripping of at least one fuse (100, 200) from the loss of or modification of the signal of the transponder (119, 120) of the fuse (100, 200), which is readable via radio, and optionally also to signal information to the user and/or to make data from the tripped fuse (100, 200) available to the user.

Description

description

Fuse, evaluation device and system with at least one fuse and at least one Auswertevor- direction

When current flows in a conductor, it heats up due to thermal effects. Since inadmissibly high currents can cause fires, they must be switched off. In order to reduce the risk of fire in electrical installations caused by overloads or short circuits, and also to protect electrical lines and consumers, fuses are widely used.

A single fuse may comprise a detector, e.g. by its jumping out signaled that the fusible conductor has melted through and so the fuse was triggered. Since the status of a detector is to be visually checked by hand, and because the fuses are sometimes located in hard-to-reach places, for example inside a control cabinet, the monitoring of the individual fuses requires a great deal of effort and therefore takes a relatively long time. especially in larger or more complex plants.

The automated monitoring of fuses has been possible only with considerable effort. In particular, power failure or phase failure monitoring relays are used for this purpose. These are usually complicated and also correspondingly expensive devices, which are also to be wired by a specialist. This additional effort means that backups are often not monitored at all.

The object of the invention is to simplify the automated monitoring of fuses.

confirmation head This object can be achieved by means of a fuse according to claim 1, namely, when the fuse has at least one transponder which is adapted to send a readable signal via radio, and if the fuse is further formed when triggered on the transponder so to prevent it from being able to send a radio-readable signal or to send a modified radio-readable signal. Then it can be seen from the changed or failed signal that the fuse has been triggered. As a result, a very simple monitoring of the fuses without intervention in the main circuit is possible.

With an evaluation device according to claim 10 or 11, the triggering of at least one fuse can be determined easily. In particular, when the evaluation device is designed to carry out the evaluation cyclically, a largely automated monitoring can take place. Under certain circumstances, the device can also be used for the status monitoring of other devices.

A system according to claim 12 offers the plant owner, in whose plant the system is used, a possibility for more economical plant management, since triggered fuses are identified faster or with less effort and therefore can be re-used.

The subordinate or independent claims of claim 1 describe advantageous embodiments of the invention.

If the transponder is set inside a hollow body, the transponder can be better protected against external forces. In addition, it is possible that the pressure stability of the fuse, which is of considerable importance for example in the case of a short circuit, does not necessarily have to be endangered. In particular, the hollow body may consist of glass or ceramic, and preferably contain steatite or porcelain. Then, the hollow body can be used at the same time as the fusible conductor converted hollow body.

The easiest way to act on the communication capability of the transponder, if the fuse is designed to destroy the transponder or cause its inoperability. This can be brought about by destroying its receiving and / or transmitting means.

A little complex solution for acting on the transponder, which with a fuse having at least one fusible conductor is, if the / the fusible conductor is / are formed to bring about the destruction of the transponder or the cause of its inoperability during its melting. Then, namely by the calorific values (also known as I ² t _s - value fuse evaluation device and system having at least one fuse and at least one evaluation e known) of the fuses, which are incorporated during the melting, to ensure that there is enough energy for the necessary action on the transponder remains available.

A simple way of destroying or causing the inoperability of the transponder, if the fuse is formed, at least partially by melting an antenna of the transponder to bring about. Antennas consist in many applications of at least one metallic conductor. By a suitable choice of the dimensioning of the antenna can be ensured that the heat and / or pressure that arise when triggering the fuse sufficient energy remains to destroy the antenna. In fact, to destroy the entire transponder may require a much higher amount of energy.

A currently very cost effective solution is when the transponder has an RFID chip. The RFID chips are become cheaper and offer many uses. In addition, no internal fuse power supply is necessary because the transponder can receive from the interrogation signal the energy useful for the response signal.

Further, the transponder may be configured to transmit at least one of the information such as identification code, type, design, size and rated current as the radio readable signal upon request. Then it is easier to get an automated evaluation of the system status. So far, the old fuses have only issued a "tripped" message, after which it has to be checked which of the fuses has tripped, which of the phases have failed, which type has been used to replace the fuses, and logistics benefits of the customer and the supplier through additional information on the data carrier.

The invention will be described in more detail below with reference to the examples shown in FIGS. 1 to 3.

Show it:

1 shows a screw fuse, FIG 2 a NH fuse, and

3 shows a system with a fuse and with an evaluation device.

The same reference numerals indicate similar structural elements throughout the figures.

1 shows a screw fuse 100, which is designed in a favorable embodiment as a fuse link. Conventional fusible links are widely used, for example, in household energy distribution systems.

The screw fuse 100 consists of a hollow, preferably cylindrical ceramic body 121 which is connected to quartz sand 115. can be filled. The screw fuse 100 has a head contact 113 and a foot contact 117, which are connected to one another via a fusible conductor 114. In addition to the fusible conductor 114, the retaining wire 116 is also located inside the screw fuse 100. When the breaking current of the fusible insert is reached, the fusible conductor 114 and the retaining wire 116 melt and thus interrupt the circuit. The indicator 112, which via a resilient element 112, for example via a compression spring 112, then changes its position, since the force caused by the retaining wire 116 changes.

According to the invention, the screw fuse 100 also has a transponder 120, which is designed to give an answer when responding. The transponder 120 may also have an antenna 119 which may extend deeper into the interior, in particular close to the fuse element 114, the screw fuse. In an advantageous embodiment, the transponder 120 comprises an RFID chip.

If the melt line 114 melts through, the transponder 120 can be destroyed or rendered inoperable by the pressure and / or heat that arises within the hollow body 121 of the fuse 114. Preferably, the transponder 120 is not destroyed directly, but off

Force, heat and pressure considerations, a better destructive effect can be achieved by engaging the antenna 119 of the transponder 120. This applies in particular when the antenna 119 is closer to the fuse element 114 than the transponder 120.

FIG. 2 shows an NH fuse 200, which is preferably designed as a NH fuse insert. On the whole, the operating principle of a NH fuse 200 is similar to that of the screw fuse 100 shown in FIG. 1. The NH fuse 200 consists of a hollow body 221 of steatite, at whose ends the knife-like contacts 211, 217 of the NH fuse 200 are attached. The fuse element 214 is preferred by the guided with quartz sand 115 filled hollow body 221. The fusible conductor 214 is welded to the blade-like contacts 211, 217. Also, the NH fuse may have a flag to indicate the functionality.

In an embodiment that can be used with all common fuses, the retaining wire 116 is omitted. Instead of the retaining wire 116 then the antenna

119 of the transponder 120 melted through. In this case, the functionality of the fuse with only one

Evaluation device to be tested. By this embodiment, the customer loyalty can be better secured.

In another embodiment, which can also be used with all fuses, the antenna 119 of the transponder 120 is guided adjacent to the retaining wire 116. Then the functionality can be checked not only with an evaluation device, but also by inspection. In this case, retrofitting is better for existing systems.

3 shows a system with a fuse 100, 200 and with an evaluation device 300. The evaluation device has an antenna 319 and a processing unit 321. The antenna 319 sends an interrogation signal E to the antenna 119 of the transponder 120. If the interrogation signal E fitting, so the expected signal - in the simplest case, a signal on the right frequency, ie the transponder

120 responds, the transponder 120 sends a message signal M, which can be received via the antenna 319 of the evaluation device. The processing unit 321 then evaluates the information present in the message signal M, and then passes it on to a display and / or communication interface 323, which may be a system communication interface, preferably a fieldbus system (eg ASI interface), and / or a display facility (Sound, display, etc.) for communication with the user. With an RFID chip as a transponder 120, it is possible to detect exactly the melted fuse and to call this fuse with its exact type designation as a service indication.

An RFID chip, also known as an RFID tag, can be integrated into the fuse, which causes a changed signal when triggered, in the simplest case by destruction a zero signal.

The transponder or transponders 120 can be cyclically read by an evaluation device 300 in spatial proximity, for example within the control cabinet, and thereby monitored. The triggering of a fuse is clearly recognized by the evaluation device 300 and all data is made available, preferably with display and / or communication interface 323. For each evaluation device, multiple fuses can be monitored. In transponder 120, the type, design and other additional information, e.g. Vendordaten for fuse 100, 200 deposited.

The identification code of the transponder 120 can be used in the evaluation device 300 for identifying the fuses. Then it is possible for the evaluation device to store the mapping from the identification code to the type or to the execution in the transponder 120.

The embodiments of the invention have been described above simplified. However, it will be understood by those skilled in the art that the examples are not to be construed as limiting the invention, but rather the invention is to be construed as such by the inventive idea with the aid of the appended claims.

In particular, a modification of the invention is possible, wherein in the fuse two transponders, preferably RFID Chips, are present. When the fuse is triggered, the transponder is destroyed or rendered inoperative. The functionality is such that there are two radio-readable signals before triggering the transponder, but only one after triggering.

Claims

claims

1. Fuse (100, 200), characterized in that i) the fuse (100, 200) has at least one transponder (119, 120) which is adapted to transmit a radio-readable signal; and that ii) the fuse (100, 200) is designed to act upon triggering on the transponder (119, 120) so that it can no longer send a radio-readable signal or can transmit a modified radio-readable signal.

2. Fuse (100, 200) according to one of the preceding claims, wherein the transponder (119, 120) within a hollow body (121) is set.

3. fuse (100, 200) according to claim 1 or 2, wherein the hollow body (121) is made of glass or ceramic and preferably contains steatite or porcelain.

4. fuse (100, 200) according to any one of the preceding claims, wherein the fuse (100, 200) is adapted to bring about the action by destroying the transponder (119, 120) or by causing its inoperability.

5. Fuse (100, 200) according to any one of the preceding claims, wherein the fuse (100, 200) has at least one fusible conductor (114, 214) which is formed, the destruction of the transponder when melted through

(119, 120) or the cause of its inability to function.

6. Fuse (100, 200) according to claim 4 or 5, wherein the fuse (100, 200) is formed, the destruction of the transponder (119, 120) or the causation of its inoperability at least partially by melting an antenna (119) of the transponder (119, 120) bring about.

7. Fuse (100, 200) according to one of the preceding claims, wherein the transponder (119, 120) has an RFID chip.

8. Fuse (100, 200) according to any one of the preceding claims, wherein the transponder (119, 120) is adapted to send at least one of the information, such as identification code, type, design, size and rated current as the radio-readable signal ,

9. fuse (100, 200) according to any one of the preceding claims, wherein the fuse: i) a screw fuse, in particular a fuse link, ii) an NH fuse, or iii) a device protection fuse, in particular a fuse link.

10. evaluation device (300) for reading at least one fuse (100, 200), characterized in that the evaluation device (300) is formed, the triggering of at least one fuse (100, 200) from the failure or change of the radio readable signal the transponder (119, 120) of the fuse (100, 200) to recognize, and optionally also to the user to signal and / or data of the triggered fuse (100, 200) to provide the user.

11. Evaluation device (300) according to claim 10, wherein the evaluation device (300) is designed to carry out the evaluation cyclically.

12. System with at least one fuse (100, 200) according to one of claims 1 to 9 and with at least one evaluation device (300) according to claim 10 or 11.