DE2710573A1 - Electromagnet residual magnetism removal circuit - has resistor and capacitor in series across coil performing damped oscillations on switch-off - Google Patents

Abstract

The demagnetising circuit, is used with an electromagnet, it has a capacitor (18) which is connected in series with a resistor (17) across the coil (13) of the electromagnet assembly. The RC circuit causes damped oscillations when the switch (12) is opened and ensures that the magnetic field returns to its initial zero value; it overcomes the effects of hysteresis in the magnet. Removing the residual field in this way prevents the armature remaining attracted to the core.

Description

Device for demagnetizing a ferromagnetic

Material containing electromagnets Summary It will be a Device for demagnetizing a material containing a ferromagnetic material Electromagnet proposed by which a gluing of ferromagnetic parts of the electromagnet, in particular a clutch magnet, when the direct current supply is switched off should be prevented. The device comprises a winding parallel to the magnet of the electromagnet switched capacitance, whereby the through the magnet winding and the circuit formed by the capacitance should have an ohmic resistance. Through this When the switch-off process occurs, a damped oscillation is created, through which a complete Demagnetization of the magnetic circuit can be achieved.

PRIOR ART The invention is based on a device the genre of the main claim. It's been used to demagnetize electromagnets Quenching diodes connected in parallel to the magnet winding are known and widely used. Especially with large magnets that require high currents the quenching diodes required for these high currents are very expensive. It is still off Hütte, the engineer’s pocketbook IV A, electrical engineering part A, Berlin 1957, page 492, 493 a capacitance connected in parallel to an alternating current magnetic switch known. However, this device does not serve to demagnetize the magnetic circuit and to eliminate the sticking of ferromagnetic materials, but to avoid it of overvoltages and voltage peaks to protect the switching elements.

Advantages of the invention The device according to the invention with the characterizing Features of the main claim has the advantage that using of cheap components like resistors and capacitors an elimination of the Bonding of ferromagnetic materials of electromagnets, especially for clutch magnets, can be reached. Even with the greatest coupling torques, it is safe to disengage possible.

The full engagement force is maintained.

The measures listed in the subclaims are advantageous Developments and improvements of the device specified in the main claim possible.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description. It shows Fig. 1 shows the circuit diagram of an exemplary embodiment and FIG. 2 shows the diagram the assigned hysteresis curve.

Description of the invention Two terminals 10, 11 to which a direct voltage is applied, are via the series connection of an electrical switch 12 with the magnet winding 13 of an electromagnet connected to one another. The electromagnet has a magnetic core 14 made of ferromagnetic material. A movably mounted one Part 15, also made of ferromagnetic material, is activated by the magnetic force of the Electromagnet 13, 14 against the spring force of a spring 16 from the electromagnet 13, 14 tightened.

The series connection of a resistor is parallel to the magnet winding 13 17 connected to a capacitor 18. The movably mounted part 15 can e.g. be a switching contact, whereby the arrangement 13 to 16 becomes a relay. is if the movably mounted part 15 is designed as a coupling part, the arrangement becomes 13 to 16 a clutch magnet.

The mode of operation of the embodiment shown in FIG. 1 is to be explained below with reference to the diagram shown in FIG. This diagram represents a hysteresis curve and shows the dependence of the magnetic Field strength H from the magnetic induction B. After switching on the switch 12 Current flows through the magnet winding 13, and when passing through the curve piece I up to point A builds up a magnetic field through which the magnetic Part 15 is attracted by the electromagnet 13, 14 and in contact with the iron core 14 is coming. After opening the switch 12, the magnetic field strength increases according to the Curve piece II off again. Because the curve II does not go through the zero point there is a risk of the moving part sticking due to remanence 15 on the magnetic core 14. The series connection of the resistor 17 with the capacitor However, 18 causes a damped oscillation through which the magnetic field strength H is brought back to the zero point. Gluing the movable part 15 to it the magnetic core 14 is thereby prevented, which is e.g. leads to a safe disengagement. When implemented as a relay, a safe Loosening of the switch contact guaranteed.

Claims (4)

Claims device for demagnetizing a ferromagnetic one Electromagnet containing material when switching off the direct current supply, characterized in that parallel to the magnet winding (13) of the electromagnet (13,14) a capacitance (18) is connected and that through the magnet winding <13) and the capacitance (18) formed an ohmic resistance circuit (17) having. 2. Apparatus according to claim 1, characterized in that parallel for the magnet winding (13) the series connection of the capacitance (18) with an ohmic one Resistor (17) is connected. 3. Apparatus according to claim 1 or 2, characterized in that the electromagnet (13, 14) is designed as a clutch magnet (13 to 16). 4. Apparatus according to claim 1 or 2, characterized in that the electromagnet (13, 14) is designed as a relay (13 to 16).