DE29712392U1 - Electromagnetic switching device with bus-compatible amplifier module - Google Patents

Description

Electromagnetic switching device with bus-capable amplifier module

The invention relates to an electromagnetic switching device with a bus-compatible amplifier module, wherein the amplifier module contains an electromagnetic or electronic amplifier arrangement which is connected via an interface circuit to bus connections and, on the one hand, to supply current connections and, on the other hand, to drive connections. Such switching devices (here: in the form of contactors) and amplifier modules are known from the technical-scientific publication by Klöckner-Moeller GmbH "Specialists in switching and protecting: System contactors DIL M, DEL R" (printing note: 8/91 VER 21-767 FLSAVi), pp. 5, 6, 8 and 10. The amplifier modules can be plugged onto the contactor below its access area for the incoming line connections, are to be connected on the output side via their drive connections to the coil connections of the electromagnetic contactor drive and are to be connected on the input side via their control connections to a control circuit on the one hand and via their supply current connections to a supply current circuit on the other. In addition to a protective circuit and an LED switching status display, the amplifier module contains a switching relay, the control coil of which is acted upon by the control current circuit and the relay contact of which switches the supply current supply to the contactor drive on and off. The control direct current is supplied by electronic controls or by switching devices with a low power level at a low voltage level (e.g. 24 V), whereas the supply current is advantageously supplied from a galvanically isolated alternating current source with a higher voltage level (e.g. 230 V), so that in this way contactors with a high rated power can be controlled by controls with a low output power.

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From DE 38 43 944 A1 a contactor arranged in a housing is known, the electromagnetic drive of which can be controlled via a cable system from any distance, whereby the control of the electromagnetic drive is provided via an installation bus line and for this purpose a bus coupler with an address input switch and additionally a switching relay that can be influenced directly or indirectly by the bus coupler is arranged within the contactor housing, which forms a switching point in the supply circuit for the electromagnetic drive. In particular, a special two-wire bus is provided as the installation bus and an electrical or electronic module is connected between the bus coupler and the switching relay that can be influenced by it, which causes the switching relay to be switched on and off.

From the 1995 Telemecanique catalog, catalog KSK, p. 1/43, interface modules that can be controlled via a bus are known, which are designed either as relay or electronic switching amplifiers and can be connected mechanically and electrically to the associated contactor as an additional module.

Furthermore, a bus-capable amplifier module for drive arrangements of electromagnetic switching devices is known from the German utility model 295 19 678.5, with which two outputs of the amplifier module can be switched in opposite directions via two integrated amplifier arrangements.

Such switching devices and bus-capable amplifier arrangements have proven themselves to be very effective, but require continuous improvement due to ever-changing requirements.

The object of the present invention is to create a switching device and a bus-capable amplifier module in which the general wiring effort is significantly reduced, required safety requirements are better met and the comfort of operating such devices is increased.

According to the invention, the object is achieved in that the switching device has means for switching state detection and that the amplifier module and the switching device communicate with each other via a 0 interface in such a way that the switching state of the switching device is detected by the amplifier module and output via bus connections. According to the invention,

Klöckner-Moeller GmbH

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For this purpose, two additional connections are arranged on the switching device and on the amplifier module. The switching states of the device can be recorded using the means for detecting the switching state integrated in the switching device and transmitted to a connected bus system for further processing. In conventional devices, as described in the prior art, the switching state is detected using additional auxiliary contacts. The disadvantage here is that these contacts have to be wired separately - sometimes over long distances. This in turn results in increased costs and increased susceptibility to faults.
The amplifier module can be mechanically connected to the switching device, set up or attached separately, or snapped onto the switching device. The electrical connection to the switching device is made using plug connections and/or permanently attached and/or individual cables. The amplifier module can have mechanical contact outputs and/or electronic outputs, analog or digital as required. The amplifier module has an interface circuit with which the switching device or the amplifier module itself can be adapted to any bus protocol. This enables the individual networking of the drive arrangements of contactors, if necessary in conjunction with electronic control or regulating arrangements, but also electromagnetic power or remote drives of other switching devices, regardless of the size, design, power consumption and voltage level of the devices to be driven. Communication with the bus can alternatively take place via various media, in particular metallic conductors of various numbers or fiber optic cables.

Further advantageous embodiments of the invention can be found in the dependent claims and the following description of the figures. They show: 5 Fig. 1 a possible embodiment of the switching device according to the invention with bus-capable

Amplifier module in a schematic diagram, and Fig. 2 a sectional view of the switching device according to the invention in a possible

Design with cutting plane transverse to the direction of movement of the magnetic drive of the switching device. 30

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Fig. 1 shows a switching device 2 in the form of a contactor with a bus-capable amplifier module 4 in a schematic diagram. In the embodiment shown, the amplifier module 4 preferably has four connections on its connection side to be connected to the switching device 2. Two of the connections are designed as drive connections 6 for switching a magnetic drive 8 and two further connections as signal connections 10 for detecting the switching state of the switching device 2. On the connection side of the amplifier module 4 facing away from the switching device 2, the latter has six connections in particular. Two of the connections are designed as supply current connections 12 for connection to a supply current network of, for example, 230 V/50 Hz, two as bus connections 14 for data exchange with other automation systems and two further connections, for example, as conventional control inputs 16 for further control devices or the like. The switching device 2 preferably also has four connections in order to match the amplifier module 4, two of which are designed as coil terminals 18 for connecting the drive connections 6 and two more as signaling terminals 20 for connecting the signaling connections 10 of the amplifier module 4. In a preferred embodiment of the invention, the signaling and/or drive connections 6, 10 of the amplifier module 4 are designed as essentially dimensionally stable connection pins which can be plugged into the signaling and coil terminals 20, 18 and connected to them by screwing, clamping, squeezing or otherwise. The electrical connection of the amplifier module 4 (with 0 connection pins) and the switching device 2 (with terminals) advantageously ensures a sufficiently stable, mechanical locking or connection between the two components 2, 4. Optionally, the amplifier module 4 can also be attached to the switching device 2 using additional mechanical means such as snap or locking connections.

5 The switching device 2 also has means 22 for detecting the switching state. In the embodiment shown, the means 22 is designed as a contactless means for detecting the switching state in the form of a reed contact which is arranged in the immediate vicinity of the magnetic drive 8 and is connected to the signal terminals 20 via two lines. When the magnetic drive 8 is actuated, a magnetic field is formed in its surroundings. This magnetic field is detected by the reed contact and then causes it to change the switching state. This change in state is thus detected by the means 22, the

Klöckner-Moeller GmbH

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The signal is transmitted to the amplifier module 4 and made available for further processing with PLC, PC or the like, in particular via a bus system. The reed contact is preferably arranged in the switching device 2 in such a way that the direction of movement of its contacts is perpendicular to the direction of movement of the magnetic drive 6, so that shocks caused by switching operations do not lead to incorrect switching of the reed contact. Alternatively, it is possible to position the reed contact anywhere and to ensure that its switching state changes by means of individual wire windings arranged in the area of the reed contact that carry the coil current. A test device is also provided, by which a switching state change can be simulated and the functionality of the means 24 can be checked. This test device can be implemented, for example, by a separate circuit that can be closed using a button.

Fig. 2 shows the switching device 2 shown in principle in Fig. 1 in a detailed sectional view, with the cutting plane transverse to the direction of movement of the magnetic drive 8. The magnetic drive 8 essentially consists of a laminated core 24 and a coil body 26, with the means 22 - here in the form of the reed contact - being arranged in the directly adjacent area of the coil body 26. The two connection contacts of the reed contact are led out of the switching device 2 via the signaling terminals 20, which are designed as screw terminals, for example. The signaling terminals 20 are advantageously arranged in the directly adjacent area of the coil terminals 18 between, next to, above or below them. Furthermore, the signaling terminals 20 are preferably designed using the same connection technology (screws, clamps, etc.) as the coil terminals 18.

As an alternative to the contactless switching state detection described above using a reed contact, means 24 - also for contactless switching state detection - are provided in the form of a coil tap, whereby either one of the existing or an additional coil tap is used. The switching state is then detected by the flowing coil current or the tappable coil voltage.

Further alternatives to contactless switching state detection are conceivable in the form of 0 means 24, which are designed as electronic or electrical, optoelectronic or temperature-sensitive components and, depending on the

Klöckner-Moeller GmbH

Winding wire temperature of the coil body 26 changes its electrical resistance sufficiently quickly.

In addition to contactless switching state detection, switching state detection can be carried out by directly actuating mechanical means 24. In this case, the movement of a part of the magnetic drive 8 directly acts on a mechanical means 24 such as a switching contact, potentiometer or the like.

The invention is not limited to the embodiments shown and described, but also includes all embodiments that have the same effect within the meaning of the invention. It is therefore conceivable to design the switching device 2 and the amplifier module 4, as described, as two individual device units or to integrate the amplifier module 4 into the switching device 2. Furthermore, it is intended to design the switching device 2 and/or the amplifier module 4 with a display element for optical switching state detection. In special cases, an acoustic display element would also be conceivable.

Claims (10)

1. Electromagnetic switching device (2) with bus-like amplifier module (4), wherein the amplifier module (4) contains an electromagnetic or electronic amplifier arrangement which is connected via an interface circuit to bus connections (14) and on the one hand to supply current connections (12) and on the other hand to drive connections (6), characterized in that the switching device (2) has means (22) for detecting the switching state and that the amplifier module (4) and the switching device (2) communicate with each other via an interface such that the switching state of the switching device (2) is detected by the amplifier module (4) and output via the bus connections (14). 2. Switching device (2) with amplifier module (4) according to claim 1, characterized in that the switching state detection is contactless. 3. Switching device (2) with amplifier module (4) according to claim 1 or 2, characterized in that the means (22) for detecting the switching state are designed as electrical or electronic components which respond to a change in a 0 magnetic field. 4. Switching device (2) with amplifier module (4) according to one of claims 1-3, characterized in that the means (22) for detecting the switching state are designed in the form of at least one reed contact. Klöckner-Moeller GmbH . 1997 30 :583 GM 5. Switching device (2) with amplifier module (4) according to claim 1 or 2, characterized in that the means (22) for detecting the switching state are designed as an electrical or electronic component which changes its electrical resistance sufficiently quickly as a function of the temperature. 6. Switching device (2) with amplifier module (4) according to claim 1 or 2, characterized in that the means (22) for detecting the switching state are designed in the form of an additional coil tap. 7. Switching device (2) with amplifier module (4) according to claim 1, characterized in that the switching state detection takes place by the actuation of mechanical signaling contacts. 8. Switching device (2) with amplifier module (4) according to one or more of claims 1-7, characterized by a one-piece embodiment of switching device (2) and Amplifier module (4). 9. Switching device (2) with amplifier module (4) according to one or more of claims 1 - 7, characterized by a two-part embodiment of switching device (2) and amplifier module (4), wherein the two parts (2, 4) can be connected to one another in a force-fitting and/or form-fitting manner. 10. Switching device (2) with amplifier module (4) according to one or more of claims 1-9, characterized in that the amplifier module (4) has a display element for optically displaying the switching state.