EP1780742A1 - Switching device having an electric circuit with an electronic component - Google Patents

Abstract

The switchgear (1) has a switching device with a switching mechanism (2). The switching device is supplied with an operating voltage. A PCB (31) is provided having an electronic component (32-34) and being electrically connected to the switching device to form a supplementary electrical circuit that receives the operating voltage as the operating voltage is being supplied to the switching device. The switching device is a relay. A housing cover is positioned over the switching device and the PCB. The PCB partially bears on the housing cover. An independent claim is included for an electronic switch.

Description

The present invention relates to a switching device with a switching device comprising a contact element, which acts on a switching mechanism, as well as with at least one electronic component, which is connected to the switching device, wherein for this purpose a connection arrangement is provided, which is connected to the switching device and the electronic component connected is. The switching device is designed in particular in the form of a relay. Furthermore, the present invention relates to an additional electrical circuit, in particular a display circuit and an electrical protection circuit for such a switching device.

In switching devices, especially in electromechanical switching devices such as a relay, it is known that these are often designed to be as small as possible in order to take into account any cramped installation conditions when using the switching device as intended. A typical switching device in the form of a relay has a switching device which comprises a contact element, which acts on a switching mechanism. The switching mechanism is used in particular to bring the contact element with a mating contact element in contact or to separate the connecting contact between the contact element and mating contact element, so that a switching operation can be brought about. In particular, a relay comprises a magnetic frame with a coil passing through a core and a yoke, wherein the magnetic frame forms a pole face, with which an armature cooperates. This is connected for example via a coupling member with the contact element, so that the armature acts on the contact element.

Furthermore, applications for switching devices are known in which, in addition to such a switching device, for example, an electrical display circuit or electrical protection circuit with electronic components is provided. An electrical indicator circuit for a switching device is used, for example, to indicate to the user the intended operation of the switching device, for example, when the switching device is properly connected and supplied with power. As an electronic component for this purpose, for example, a light-emitting diode (LED) is provided, which lights up during proper operation of the switching device. Furthermore, an electrical protection circuit for the switching device can be provided, for example, to filter out any voltage peaks of the supply voltage in the case of a switching device for alternating voltage. For example, an RC element is provided as a protective circuit for this purpose, which can smooth high-frequency voltage spikes a supply voltage.

If such additional electrical circuits are to be provided in a switching device such as a relay described above, then it is necessary to supply the respective additional electrical circuit with the operating voltage of the switching device. The supply of the operating voltage is done for example via an insulated wire, which must be passed, for example, to the magnetic frame of the relay. This has the particular disadvantage that at the points at which such a wire must be guided past the magnetic frame of the relay, an increased space requirement arises, which increases the outer dimensions of such a relay. If, however, the installation conditions of the relay in its intended use, such as in a cabinet, do not allow an increase in the external dimensions of the relay, so it is not possible in such a case to provide a display circuit or protection circuit in the switching device itself.

The present invention has for its object to provide a switching device in which an electrical indicator circuit and / or electrical protection circuit can be provided and which can still be realized in a comparatively small size. Furthermore, it is an object of the invention to provide a corresponding additional electrical circuit.

This object is achieved by a switching device according to claim 1. Furthermore, the present invention relates to an electrical Additional circuit for such a switching device, in particular in the form of an electrical indicator circuit and / or electrical protection circuit, according to claim 17.

The switching device according to the invention comprises a switching device having a contact element, which acts on a switching mechanism, and an electronic component, which is connected to the switching device. Furthermore, a connection arrangement is provided, which is connected to the switching device and the electronic component and which serves to connect the electronic component to the switching device, with a printed circuit board on which the electronic component is arranged. In this case, the circuit board of the connection arrangement is permanently installed in the switching device and designed and arranged such that at least one point of the circuit board, a bending of the circuit board is formed.

By providing such a circuit board in the switching device according to the invention gives the advantage that the electronic component, such as an additional circuit for the switching device is held in position and can be supplied with operating voltage. At the same time can be achieved due to the low thickness and low insulation layer thickness of such a circuit board that largely no increased space required for the supply of the operating voltage to the electronic component. Thus, it is possible to realize a switching device with an additional electrical circuit approximately in the form of a display circuit and / or protection circuit in a relatively small size.

In one embodiment, the printed circuit board is designed to be flexible, so that it can be introduced into the switching device in a relatively simple manner and in a precisely adapted form, since the flexibility makes it possible to produce subsequent, accurate, situation-specific shaping, in particular bending of the printed circuit board. However, it is also possible to prefabricate the circuit board in the desired shape and install in this form in the switching device. Also, a per se flexible circuit board for the subsequent installation may already be preformed.

In particular, in a switching device comprising a housing within which the switching device and the connection arrangement are arranged, the printed circuit board may extend in at least a partial area between the switching device and the housing. Due to the small thickness of the circuit board used according to the invention, for example with a thickness of 0.15 mm, it is possible to use a housing which surrounds the switching device comparatively tight. It can even be gone so far that the circuit board is at least partially applied to the housing of the switching device, so that even the tightest installation conditions in the switching device for supplying an operating voltage can be bridged.

According to a further embodiment of the invention, the circuit board, the switching device at least partially, in particular surrounded like a frame. If the switching device is designed, for example, in the form of a relay with a magnetic frame which cooperates with an armature acting on the contact element of the switching device, the printed circuit board can be arranged, for example, like a frame around the magnetic frame of the relay, whereby a good space utilization for the additional circuit to be provided can be achieved.

According to a further feature of the invention, the circuit board can be configured and arranged such that the circuit board comprises a plurality of bending points, for example, to realize the mentioned frame-like course of the circuit board. Furthermore, the printed circuit board may comprise at least one bending point, on which the printed circuit board is bent at a bending angle of at least approximately 90 °.

According to one embodiment of the invention, the switching device is designed as an electromechanical switching device, wherein the switching device in particular comprises a relay.

In a further development, the relay comprises a coil, which is part of the switching mechanism, and a magnetic frame with a coil passing through the Core and a yoke, wherein the circuit board extends at least partially between a housing of the switching device and the magnet frame. With this arrangement, it is possible, for example, to pass the operating voltage of the coil supplied to the underside of the housing between the housing of the switching device and the magnet frame on the magnet frame, so that the electronic component can be arranged above the magnet frame, for example. Thus, the electronic component can be provided at a location within the housing of the switching device to which sufficient space for the electronic component is available, wherein the supply of the operating voltage with the help of the circuit board can be passed even at tight spots within the housing.

According to a further development, the relay has a magnet frame and an armature which cooperates with a pole face of the magnet frame and which acts on the contact element, the relay furthermore having a coupling member, via which the armature acts on the contact element. It can be provided that the circuit board surrounds the coupling member at least partially, in particular like a frame. Thus, the device can be provided above the coupling member, wherein the supply of the operating voltage by means of the circuit board can be passed on both sides of the magnet frame and can be connected below the magnet frame with operating voltage.

Further advantageous embodiments and further developments of the invention are specified in the subclaims.

Figur 1

eine schematische, perspektivische Darstellung eines Schaltgeräts gemäß einer Ausführungsform der vorliegenden Erfindung,

Figur 2

eine weitere schematische, perspektivische Darstellung des Schaltgeräts gemäß der Ausführungsform der Figur 1,

Figur 3

eine perspektivische Detailansicht eines Teils des Schaltgeräts gemäß der Ausführungsform der Figuren 1 und 2,

Figur 4

eine Explosionsansicht von Teilen des Schaltgeräts gemäß der Ausführungsform der Figuren 1 und 2,

Figur 5

eine Detailansicht einer Ausführungsform einer Verbindungsanordnung mit einer Leiterplatte für das Vorsehen in einem erfindungsgemäßen Schaltgerät,

Figur 6

eine Schnittansicht einer Ausführungsform einer flexiblen Leiterplatte gemäß der Erfindung.

The invention will be explained in more detail below with reference to the figures illustrated in the drawing, which illustrate embodiments of the present invention. Show it:

FIG. 1

a schematic, perspective view of a switching device according to an embodiment of the present invention,

FIG. 2

1 is a further schematic perspective view of the switching device according to the embodiment of FIG. 1;

FIG. 3

1 is a perspective detail view of a part of the switching device according to the embodiment of FIGS. 1 and 2,

FIG. 4

an exploded view of parts of the switching device according to the embodiment of Figures 1 and 2,

FIG. 5

a detailed view of an embodiment of a connection arrangement with a circuit board for the provision in a switching device according to the invention,

FIG. 6

a sectional view of an embodiment of a flexible printed circuit board according to the invention.

In the following, the structure and the operation of the illustrated switching device with a relay will be described in detail with reference to FIGS 1-4. This relay is an exemplary embodiment of a switching device according to the invention with a connection arrangement for implementing an additional circuit in the switching device. However, the invention is in principle applicable to other embodiments of switching devices.

In addition to FIGS. 1 and 2, FIGS. 3 and 4 show a greater degree of detail regarding the switching mechanism of the relay, whereas FIGS. 1 and 2 illustrate the overall arrangement of the switching device from different perspectives.

The switching device 1 comprises a switching device 2, which in the present case is designed as a relay. The relay 2 is inserted into a base body 4, wherein the connecting pins 21 and 22 of the coil 11 (FIG. 4) shown pass through the base body 4. The magnetic frame of the relay comprises a bobbin 12 with the coil 11, wherein the bobbin 12 is penetrated by a core 14, which is preferably integrally connected to a yoke 13, wherein the Joch 13 extends along the outside of the bobbin. Along the yoke 13, a coupling member 61 is guided, which transmits the movement of the armature 15 to a contact spring 52, which represents the switching contact element of the relay. The yoke 13 has in the region of its free end a widening 17 with a thickening extending from the core 14 away. This results in an enlarged pole face 16, which forms the working air gap with the armature 15, on which the armature 15 with its widened head part covers the pole face 16. At the protruding from the bobbin 12 end of the core 14 of the armature 15 is mounted. For this purpose, an anchor spring 18 is further provided, which serves to press the armature 15 in the lower region in the direction of the core 14 to the magnet frame. The armature spring 18 is attached laterally to the bobbin 12 at each protruding tabs, so that the spring is fixed to the bobbin 12.

As can be seen from FIGS. 1 and 2, the coupling member 61 engages with a frame-like opening 63 on the head part of the armature 15. Furthermore, a frame-like recess 64 is formed in the coupling member 61, in addition, lateral guides 62 are provided on both sides of the coupling member 61 to guide this in the axial direction along the base body 4. Further, 61 extensions 65 are provided in the axial direction of the coupling member, which engage the contact spring 52 for actuating the same. The armature 15 is supported with an end face on a projection of the bobbin 12 and engages with the other end face in the opening 63 of the coupling member 61, so that with movement of the armature 15 to the pole face 16 through the contact spring 52 is actuated via the coupling member 61.

In the illustrated relay of Figures 1 to 4 is a switching relay with a changeover contact in the form of the contact spring 52, with a normally closed contact 53 and a normally open contact 51, which each act as mating contact elements for the contact spring 52. The normally open contact 51 is contacted by the contact spring 52 when the armature 15 bears against the pole face 16. There are provided two interconnected pins for the respective contacts, a pair of terminal pins 25 for the normally closed contact 53, a pair of terminal pins 26 for the changeover contact 52 and a pair of Terminal pins 27 for the normally open contact 51. Here, the terminal pins of a respective pair are connected together.

A housing in the form of a housing cover 7 covers the switching device 2 together with the main body 4, within which the switching mechanism described is housed.

In addition to the described electrical components for the realization of the switching mechanism of the relay, an additional circuit 5 is provided on a connection arrangement 3 in the switching device 1. As an additional circuit in this case an electrical circuit for the switching device is referred to, which can be used as an addition to the actual switching device, which serves to set up the switching mechanism in the switching device and is powered by the terminals of the switching device. In one embodiment, such an additional circuit with respect to a driving of the switching mechanism and the load circuit assumes no major function in relation to the switching, but takes on a secondary function such as a display or protection function.

In the embodiment according to Figures 1 and 2, the additional circuit 5 is designed as an electrical indicator circuit. This comprises light-emitting diodes (LEDs) 33 and 34, which are connected to a series resistor 32. The connection arrangement 3 comprises a printed circuit board 31, on which the components in the form of the LEDs 33, 34 and the series resistor 32 are arranged. The printed circuit board 31 serves in this case for connecting the LEDs 33, 34 to the series resistor 32 and also for supplying an operating voltage for these components from the underside of the bobbin 12. The printed circuit board 31 is realized in this embodiment in the form of a flexible printed circuit board in several places is bent within the switching device 1.

FIG. 6 shows a sectional view of an embodiment of a printed circuit board 31, as can be used for the installation according to FIGS. 1 to 4. The printed circuit board 31 comprises a layer arrangement with two plastic layers 81 and 85, which are designed, for example, in the form of plastic films and the outsides of the circuit board 31 form. Between the outer plastic layers 81 and 85, a metallic layer 83, in particular in the form of a copper layer, is arranged. This serves to connect the electronic components, which are arranged on the circuit board, and for supplying the operating voltage. In the circuit board 31 are respective, not shown in Figure 6 breakthroughs to the metallic layer 83, for example in the form of solder pads, provided to connect the electronic components on the surface of the circuit board 31 with the metallic layer 83. The printed circuit board 31 according to the embodiment according to FIG. 6 furthermore has two adhesive layers 82 and 84, via which the plastic layers 81 and 85 are connected to the metallic layer 83. The layer arrangement of the printed circuit board 31 according to FIG. 6 has, for example, a thickness in the range of 0.15 mm. It is designed in particular so flexible that it can be bent at an angle of 180 ° in the longitudinal direction 86, wherein, for example, a bending radius of at least 1 mm should be maintained.

As can be seen in particular with reference to FIGS. 3 and 4, connection pins 21 and 22 are provided for connecting the coil 11 in order to supply an external operating voltage to the windings of the coil 11. Furthermore, second connection pins 23 are provided on the switching device in each case on the outside of the connection pin 21 or 22, the connection pins 23 serving to connect the circuit board 31, as shown in FIG. In FIGS. 3 and 4, only one connecting pin 23 is shown, which is connected to the connecting pin 21. Accordingly, a further connecting pin 23 is provided on the back of the arrangement, which is connected to the connecting pin 22, which is not visible in Figures 3 and 4. The terminal pins 23 are bent, for example, in the manufacture of the switching device to the rear in the position shown in Figures 3 and 4, so that they point in the longitudinal direction of the magnet frame. The printed circuit board 31 is exposed at the connection point with the connecting pin 23 such that the metallic layer 83 connected to the pin 23, in particular can be soldered. Here, the circuit board 31 is disposed on the inner side of the terminal pin 23. In this way, the circuit board 31 is connected to the operating voltage leads of the coil 11, the terminal pins 21 and 23 in the present embodiment are formed as a common component. For connection to the two-sided connection pins 23 serve the printed circuit board ends 39 of the circuit board 31, which are designed in a suitable manner, as described above.

In the event that the pins 21 and 22 are supplied with operating voltage, one of the unipolar light-emitting diodes 33 or 34 lights up, depending on the polarity, in order to indicate to the operator that the operating voltage is applied to the switching device. The series resistor 32 serves to limit the current for the LEDs.

FIG. 5 shows a detailed view of further embodiments of a connection arrangement with an additional circuit for the provision in a switching device according to the invention. In a first variant, according to which the additional circuit 6 is designed as a protection circuit, a freewheeling diode 43 is provided for a DC switching device (DC application), which serves in a DC protection circuit that no unacceptably high voltages to the coil of the switching device occur. In addition, an LED 44 may be provided for displaying the operating voltage, which is connected to the series resistor 41, for example. In a second variant, the additional circuit 6 is designed as a protective circuit or display circuit for an AC switching device (AC application), for which purpose a rectifier diode 42 is provided, which is arranged on the printed circuit board 31. This serves to rectify the alternating current and can feed, for example via the series resistor 41, an LED 44 for displaying the operating voltage. As a protective circuit can also be provided, for example, an RC element, which is not shown in Figure 5. Such an RC element is used in particular to ensure that no unacceptably high voltages occur at the coil.

As shown in particular with reference to Figures 1 and 2, the circuit board 31 is guided between the housing cover 7 of the switching device 1 and the magnet frame of the switching device 2, wherein the circuit board 31, the coupling member 61 in the three sections 71, 72, 73 in particular like a frame surrounds. In the longitudinal direction 75 of the magnetic frame of the switching device 2 seen (Figure 3), the circuit board 31 between the armature 15 and the contact element 52nd arranged. It extends in a direction transverse to the longitudinal direction 75 of the magnet frame from the lower side of the bobbin 12 to the upper side of the magnet frame, and in this case can at least partially abut the housing cover 7 in the lateral portions 71 and 72. Here, the insulating plastic layer 81 and 85 is dimensioned and designed such that the required dielectric strength is given to the inside of the housing out.

In the lateral portions 71 and 72, the circuit board 31 extends between the switching device 2 and the housing cover 7 transversely to the longitudinal direction 75 of the magnet frame, in the partial region 73, the circuit board 31 extends parallel to the top of the switching device 2 or parallel to the broad side of the coupling member 61 also transversely to the longitudinal direction 75. Thus, the circuit board 31 is disposed between the switching device 2 and the housing cover 7 and surrounds the switching device 2 in a frame-like arrangement.

On the housing inner wall, that is in the present case on the inner wall of the housing cover 7, guides are advantageously mounted, in which the circuit board 31 can be inserted when mounting the lid and serve to their positionally secure positioning. These guides are not shown in the figures for clarity.

As shown in particular with reference to Figure 4, the circuit board 31 includes a plurality of bending points 35 to 38, wherein the circuit board 31 has two bending points 35 and 36, where it is bent at a bending angle of approximately 90 °. On the lower sides 39, the printed circuit board 31 is connected to the terminal pins 23, which are located within the main body 4 (Figures 1 and 2), which in turn is surrounded by the housing cover 7 of the switching device. The circuit board 31 is thus connected within the base body 4 with the connection pins 23 and has outside of the main body 4 on both sides bending points 37 and 38, on which the circuit board 31 respectively approaches the housing cover 7. In this way, it is possible to provide an operating voltage supply for the components, which are arranged on the flexible printed circuit board 31, wherein the side of the magnetic frame in the lateral portions 71, 72 of the switching device 2 comparatively little space is taken, so that a very compact design of the switching device 1 is made possible. The components 32-34 (FIG. 3) and 41-44 (FIG. 5) of the additional circuits 5 and 6 are held in position by the printed circuit board 31 and directly supplied with operating voltage via the same, with no additional wires for the supply of the operating voltage necessary. As a result, the total space required for the electromechanical switching device is reduced.

The additional circuits 5 and 6 can preferably be designed as a module assembly, for example as an LED module in the case of a display circuit. Such a module assembly can be prefabricated and installed in a simple manner as a module in a switching device.

Claims (21)

switchgear - With a switching device (2), which comprises a contact element (52), which acts on a switching mechanism, with at least one electronic component (32-34, 41-44) connected to the switching device (2), with a connection arrangement (3) which is connected to the switching device (2) and to the electronic component (32-34, 41-44) and serves to connect the electronic component to the switching device, to a printed circuit board (31) the electronic component is arranged, - In which the circuit board (31) of the connection arrangement in the switching device (1) fixedly installed and arranged and arranged so that at least one point (35 - 38) of the circuit board, a bend of the circuit board is formed. Switching device according to claim 1, wherein the printed circuit board is designed to be flexible. Switching device according to one of claims 1 or 2, wherein - The switching device (1) comprises a housing (7), within which the switching device (2) and the connection arrangement (3) are arranged, - The circuit board (31) in at least a portion (71, 72, 73) between the switching device (2) and the housing (7) extends. Switching device according to claim 3, wherein the printed circuit board (31) at least partially against the housing (7). Switching device according to one of claims 1 to 4, wherein the circuit board (31) at least partially surrounds the switching device (2), in particular surrounds like a frame. Switching device according to one of claims 1 to 5, wherein the circuit board is configured and arranged such that the circuit board (31) comprises a plurality of bending points (35 - 38). Switching device according to one of claims 1 to 6, wherein the printed circuit board is configured and arranged such that the printed circuit board (31) at least one bending point (35, 36), on which the printed circuit board is bent at a bending angle of at least approximately 90 °. Switching device according to one of claims 1 to 7, wherein the switching device (2) in a base body (4) is arranged, which is surrounded by a housing (7) of the switching device, wherein the circuit board (31) on the base body (4) the switching device (2) is connected and extends past the base body (4), in particular outside the base body has a bending point (37, 38), at which the circuit board (31) approaches the housing (7). Switching device according to one of claims 1 to 8, wherein the circuit board (31) comprises a layer arrangement with two plastic layers (81, 85) and an intermediate metallic layer (83), in particular a copper layer. Switching device according to one of claims 1 to 9, wherein the electronic component (32-34, 41-44) is part of an additional circuit (5, 6) of the switching device, in particular part of a protection circuit (6) or a display circuit (5) of the switching device , Switching device according to one of claims 1 to 10, wherein the switching device (2) comprises a relay. A switching device according to claim 11, wherein the relay comprises a coil (11) forming part of the switching mechanism, the circuit board (31) being connected to the coil (11). Switching device according to claim 12, in which a first connection pin (21) for external connection of the coil (11) is provided on the switching device (2), on the switching device (2) a second connecting pin (23) is provided for connecting the printed circuit board (31), - Wherein the first and the second terminal pin (21, 23) are interconnected, in particular as a common component are formed. Switching device according to one of claims 11 to 13, wherein the relay comprises a coil (11) forming part of the switching mechanism, the circuit board (31) is connected to both supply terminals (21, 22) of the coil (11), - Wherein the electronic component (32 - 34, 41 - 44) is connected in parallel to the coil (11). Switching device according to one of claims 11 to 14, wherein the relay comprises a coil (11) forming part of the switching mechanism, - The relay comprises a magnet frame with a coil passing through the core (14) and a yoke (13), wherein the circuit board (31) at least partially between a housing (7) of the switching device and the magnet frame (13, 14). Switching device according to one of claims 11 to 15, in which - The relay has a magnetic frame (13, 14) and an armature (15) which cooperates with a pole face (16) of the magnetic frame and which acts on the contact element (52), - The relay further comprises a coupling member (61) via which the armature (15) acts on the contact element (52), - Wherein the circuit board (31) at least partially surrounds the coupling member (61), in particular like a frame surrounds. Switching device according to one of claims 11 to 16, wherein the relay has a magnet frame (13, 14) and the circuit board (31) is arranged to extend in a direction transverse to a longitudinal direction (75) of the magnet frame. Electrical auxiliary circuit for a switching device, comprising a switching device (2) with a contact element (52), which is acted upon by a switching mechanism, with at least one electronic component (32-34, 41-44), - With a connection arrangement (3) which is connected to the electronic component (32 - 34, 41 - 44) and the connection of the electronic component with the switching device (2), with a printed circuit board (31) on which the electronic component is arranged - In which the circuit board (31) of the connection arrangement in the switching device (1) permanently installed and configured and can be arranged that in the installed state at least one point (35 - 38) of the circuit board, a bend of the circuit board is formed. Electrical additional circuit according to claim 18, wherein the circuit board (31) is designed to be flexible. Electrical additional circuit according to one of claims 18 or 19, wherein the additional circuit is designed as an electrical display circuit (5) and / or as an electrical protection circuit (6) for the switching device. Electrical additional circuit according to one of claims 18 to 20, wherein the additional circuit (5, 6) is designed as a module assembly.

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