EP0620575A1 - Installation to switch off a H.T. circuit - Google Patents

Abstract

A device for switching off a high-tension circuit, which is preferably supplied with a high DC voltage, has a switching contact (1), which can be operated by a measured variable, and a high-tension fuse link (2), which is connected in parallel with this switching contact (1) and whose design operating current is less than the rated current flowing in the high-tension circuit. If the switching contact (1) opens in the event of an unacceptably high rise in the measured variable, then the total rated current flows via the high-tension fuse link (2) so that it responds and interrupts the circuit without any arc occurring on the switching contact (1). <IMAGE>

Description

The invention relates to a device for switching off a high-voltage circuit, preferably a circuit fed with high DC voltage, with at least one switching contact arranged in the circuit and actuable as a function of a measured variable, for example a temperature or a pressure.

In some cases the problem arises of switching off a circuit in the event of an impermissibly high increase in a measured variable in the system fed by the circuit. For example, the current must be interrupted if the temperature in an electric motor takes on an impermissibly high value in order to prevent damage to the electric motor. This problem occurs e.g. in traction vehicles that are fed with high voltage. To interrupt the circuit, a switch contact that can be actuated as a function of the relevant measured variable is provided in the circuit. Particularly when the supply is made with high DC voltage, care must be taken to extinguish the arc that occurs when the switch contact is opened. Conventional limit switches in connection with a measured-value sensor could therefore not be switched into such a high-voltage circuit, since they do not have any devices suitable for extinguishing the arc, rather complex design measures had to be taken to prevent an unacceptable increase in a measured variable, e.g. Temperature or pressure to cause an interruption in the high voltage circuit.

It is already known to connect the non-linear or voltage-dependent resistor in parallel with the switching contact (DE-OS 2 361 203, GB-PS 1 589 071). Due to its voltage dependency, current flows through this resistor practically only during the switching process, as a result of which the arc occurring in the switching contact is extinguished when the sinusoidal alternating current passes through zero. This known arrangement is not suitable for a high DC voltage, since a residual current flows through the resistor even after the switch contact has opened, which can only be interrupted by arranging an additional switch arranged in series with the non-linear resistor, which switch only after the switch contact has been fully opened may be opened. This requires complex additional constructive measures.

The object of the present invention is to avoid this disadvantage and to provide a device for switching off a high-voltage circuit which is extremely simple in its construction and is safe to use and which, above all, enables the use of common, inexpensive construction elements. To achieve this object, the invention proposes that a high-voltage fuse is connected in parallel to the switch contact or switch contacts, the rated current of which is lower than the nominal current flowing in the high-voltage circuit.

The device designed according to the invention enables the use of switch contacts without special constructive measures for the deletion of the light floor that occurs when opening, for example the use of commercially available limit switches that are in active connection with a measured variable sensor and open the switch contact located in the high-voltage circuit when the measured variable in question increases unacceptably . If this switch contact is opened, the circuit is not interrupted by this, rather the entire nominal current flowing in the high-voltage circuit flows through the high-voltage fuse, via which only a small fraction of this nominal current flows when the switch contact is closed due to the high resistance. For this reason, the rated current of the high-voltage fuse can be lower than the nominal current flowing in the high-voltage circuit without the risk that the high-voltage fuse will respond in normal operation. Only when the entire rated current flows through the high-voltage fuse after the switching contact has opened does the same respond, so that the high-voltage circuit is completely interrupted by the high-voltage fuse.

The device according to the invention also enables the high-voltage circuit to be switched off in the event of an impermissible increase in various measured variables. In this case, according to the invention, a plurality of switching elements which can be actuated as a function of different measured variables are connected in series, the high-voltage fuse of this series connection being connected in parallel. If even one of the switching contacts connected in series is opened, the entire nominal current then flows through the high-voltage fuse and this responds because its rated current is lower than this nominal current.

It is particularly useful if the high-voltage fuse consists of a commercially available fuse. This is cheap, can be easily replaced after eliminating the error causing the impermissibly high increase in the measured variable in question and the Arcing which occurs in response to such fuses is immediately extinguished.

It is expedient if, according to a further feature of the invention, the high-voltage fuse responds with a time delay when the nominal current flowing in the high-voltage circuit occurs. This ensures that the high-voltage circuit is only completely interrupted by the response of the high-voltage fuse when the switch contact is fully open, so that an arc does not occur due to early interruption of the high-voltage circuit by the high-voltage fuse when the switch contact is not yet fully open.

The invention is illustrated schematically in the drawing using exemplary embodiments. 1 shows the circuit diagram of a first embodiment and FIG. 2 shows a second embodiment of the

device according to the invention. The high-voltage circuit shown in both versions is supplied with a DC voltage of 1000 V, for example. In the first embodiment, the nominal current i is, for example, 10 A.

In the embodiment according to FIG. 1, a high-voltage fuse 2 in the form of a fuse is connected in parallel to a switch contact 1. At 3 there is generally a consumer e.g. a motor or a heater. The switch contact 1 consists, for example, of a conventional limit switch, which is connected via a line (not shown) to a temperature sensor which monitors the temperature in the part to be monitored in the system fed by the high-voltage circuit and, when a certain predetermined temperature occurs, causes the switch contact 1 to open . The fuse 2 has, for example, a rated current of 2 A.

In normal operation, that is to say with switch contact 1 closed, since the resistance of switch contact 1 is negligible, practically all of the current i flows through the switch contact. The rated current of the high-voltage fuse 2 can therefore be significantly lower than the rated current i. After opening the switch contact 1, however, the entire rated current i flows through the fuse 2. The high-voltage circuit is thus not interrupted by the opening of the switch contact 1, so that no arc occurs there.

Such a fuse 2 is now expediently used, which responds with a time delay when the nominal current i occurs, so that it is ensured that the switch contact 1 is already fully open when the high-voltage fuse 2 breaks the circuit and therefore no arc occurs in the switch contact 1.

The high-voltage fuse is, for example, a conventional fuse, consisting of a glass tube closed with brass caps at the ends, in which a fuse wire is located. As a result, the arc in the glass tube which occurs when the high-voltage fuse responds is extinguished.

The embodiment according to FIG. 2 differs from the embodiment according to FIG. 1 in that two switch contacts 1 ', 1' 'are connected in series, of which the switch contact 1', for example when the temperature rises excessively and the switch contact 1 ' 'responds, for example, to an impermissibly high increase in pressure. The series connection of the two switching contacts 1 ', 1' 'ensures that even if only one switching contact responds, the entire rated current flows through the fuse, so that it responds in the manner described in connection with FIG. The high-voltage circuit shown in FIG. 2 is also fed, for example, with 1000 V direct current. The rated current is, for example, 16 A, the rated current of the fuse 2 in this case is, for example, 4 A.

Claims (4)

Device for switching off a high-voltage circuit, preferably a circuit fed with high direct voltage, with at least one switching contact (1; 1 ', 1' ') arranged in the circuit and operable as a function of a measured variable, for example a temperature or a pressure that the switch contact (1) or the switch contacts (1 ', 1' ') is connected in parallel with a high-voltage fuse (2), the rated current of which is lower than the nominal current (i) flowing in the high-voltage circuit. Device according to Claim 1, characterized in that a plurality of switching elements (1 ', 1' ') which can be actuated as a function of different measured variables are connected in series, and in that the high-voltage fuse (2) of this series connection is connected in parallel. Device according to claim 1 or 2, characterized in that the high-voltage fuse (2) consists of a fuse. Device according to claim 1, 2 or 3, characterized in that the high-voltage fuse (2) responds with a time delay when the nominal current (i) flowing in the high-voltage circuit occurs.

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