DE1563837B2 - MAGNETIC TRIGGER - Google Patents

Description

i 563

The invention relates to a magnetic release with a parallel to the coil, from current to be monitored influenced resistance.

In order to protect a system or a device against damage caused by overcurrent or short-circuit current, the switching elements are equipped with thermal overcurrent and magnetic short-circuit current releases. In such arrangements, bimetal releases are used as thermal overcurrent releases. The bimetal releases are operated directly or indirectly by the current; warmed up. The heating causes the deflection of a lever, the. one switch off _: switches off. The shutdown by the bimetal release is dependent on the amount of heat supplied to the bimetal, ie the shutdown is dependent on the current time. The magnetic short-circuit current releases trigger instantaneously when a certain response current is exceeded.

It is known to run parallel to the coil of a magnetic Release a resistor to switch to the response current of the magnetic release set to a certain overcurrent value (German Auslegeschrift 1 176 255). The response value of the release remains constant when the setting is made, regardless of whether there is an overcurrent or a short-circuit current flows. If no additional overcurrent release is provided, longer If the overcurrent is present, the release will be overstressed.

A temperature-dependent resistor, as it was published in the magazine »Regeltechnische Praxis«, 1965, • Issue 1, pp. 2 to 5, describes how to connect a magnetic release in series, is also known. Its purpose is to limit the current in the event of a short circuit in order to facilitate disconnection (U.S. Patent 3,240,996).

The subject of the German Auslegeschrift 1 085 601 is an indirectly heated resistor in a bridge circuit arranged in parallel with the trip relay is provided. This circuit is but extremely complex and uses an indirectly heated resistor. . ''.

The invention is based on the object of creating a magnetic short-circuit current release, which acts like a thermal overcurrent release in the overcurrent range, depending on the current time, and in the short-circuit current range only works dependent on current.

According to the invention, this object is achieved with a magnetic release of the type mentioned at the beginning solved in that the resistor is a directly heated one through which part of the operating current flows temperature-dependent semiconductor, whose resistance value changes at a certain temperature changes suddenly in such a way that the trigger responds. In a further embodiment of the invention the coil has a secondary winding to which the resistor is connected.

With this simple. Circuit is a monitoring of the circuit with a magnetic Release guaranteed both against short-circuit current and against overcurrent. In the event of a short circuit, the Current so high that the response value of a magnetic release set to the overcurrent value is exceeded instantly despite the current division and consequently a quick, instantaneous shutdown he follows. In the event of an overcurrent, on the other hand, the resistor connected in parallel is loaded for a longer period of time and warmed. It changes its ohmic value when a limit value is exceeded in such a way that Almost all of the overcurrent flows through the magnetic release and delays it, i.e. H. current time dependent makes you respond.

An embodiment of the invention is shown in the drawing in FIGS. 1 and 2 shown. It shows

Fig. 1 shows a parallel connection of the coil of a magnetic Release and a resistor with variable resistance value,

F i g. 2 shows a parallel connection of the coil of a magnetic release and a resistor with variable Resistance value across a secondary winding.

In Fig. 1 are the connections 1 of the resistor 2 with variable resistance value directly to the Coil 3 of the magnetic release 4 and thus connected to the main power line 5. In Fig. 2 is the Variable V / resistance 2 via a secondary winding 6 to the coil 3 of the magnetic release 4 connected.

An increase in the resistance value with increasing heating as a result of increasing current, such as it is the case with a semiconductor (PTC resistor), causes an increased current increase in the Kitchen sink. For any overcurrent, the coordination is made so that the current distribution is in such a way shifted to the coil that the response value of the release is reached before an overload of the Component has occurred.

The advantages achieved by the invention are thus that the release is in the overcurrent range Depending on the current time, it acts like a thermal overcurrent release. But at very high currents it works the release like a short-circuit current release regardless of the state of the thermal element. Will the resistor is connected to the coil of the magnetic release via a secondary winding, so it can be interpreted with a higher resistance. This has the advantage that the parallel resistance obtained smaller dimensions as a result of a smaller current and for a favorable thermal time constant can be interpreted.

Claims (2)

. ·. Patent claims: 1. Magnetic release with one parallel to the coil, from the one to be monitored Current influenced resistance, characterized that the resistor (2) is a directly heated, temperature-dependent semiconductor through which part of the operating current flows whose resistance value changes suddenly at a certain temperature in such a way that that the trigger responds. 2. Magnetic release according to claim 1, characterized in that the coil (3) has a Has secondary winding (6) to which the resistor (2) is connected.