DE102008031200B4 - Surge protection device - Google Patents

Abstract

Overvoltage protection device for protecting a single- or multi-core signal circuit, with a base part (3) which can be fastened to a mounting rail (2) and with at least one plug-in part (4) plugged into the base part (3), in which a protective circuit having at least one arrester is arranged, characterized in that the plug-in part (4) has at least two connection terminals (6, 7) for at least one electrical conductor, in that a further plug-in part (4 ') is arranged on the plug-in part (4), in which a protective circuit having at least one arrester is arranged, vertically with respect to the longitudinal direction of the support rail (2) can be plugged, wherein the further male part (4 ') also at least two terminals (6', 7 ') for at least one electrical conductor and that the male part (4) at its the base part (3) facing away from the top (13) has at least one electrically connected to a connection plug contact (12) plug contact (14), in which a korrespo mating connection plug contact (12 ') of the further plug-in part (4') can be inserted.

Description

The invention relates to an overvoltage protection device for protecting a single or multi-core signal circuit, with a mountable on a support rail base and at least one plugged onto the base part plug-in part, in which a at least one arrester having protective circuit is arranged.

Interfaces in the field of measuring and control technology are far more sensitive to overvoltages than power supply systems. Sensitivity has increased to the extent that the use of electronic components, in particular transistors and thyristors in electrical equipment, systems and systems has increased. Above all, the integrated circuits increasingly used in electrical and electronic devices are to a great extent endangered by transient overvoltages.

Electrical circuits and electrical equipment operate at the voltage specified for them, the rated voltage, normally without interference. This does not apply if surges occur. Overvoltages are all voltages that are above the upper tolerance limit of the rated voltage. These include above all transient overvoltages, which can occur due to atmospheric discharges, but also by switching operations or short circuits in power supply networks and galvanically, inductively or capacitively coupled into electronic circuits. In order to protect electrical and electronic equipment as well as the power and signal circuits, in particular in the measurement and control technology, against transient overvoltages, overvoltage protection devices have been developed which intercept or limit overvoltage spikes.

Such overvoltage protection devices for the field of measurement and control technology are marketed for many years by the applicant under the product name "PLUGTRAB" (see Phoenix Contact brochure "surge protection TRABTECH 2007", pages 60ff). The known overvoltage protection devices are in particular designed as 2-channel or 4-channel devices, to which two or four signal conductors or one or two ground potential-operated signal circuits can be connected.

The well-known, under the product name "PLUGTRAB" sold overvoltage protection devices have been proven in practice for many years. The two-part construction, consisting of the base element and the plug, offers the user a high degree of maintenance comfort, since the base element, which has all the terminals of the surge protection device, always remains an integral part of the installation. In case of maintenance, the plug can thus simply be pulled out of the U-shaped base element and replaced by a new plug. In addition, the known overvoltage protection devices are particularly easy to connect to different types of signal circuits, that a base element is optionally combined with different plugs.

A similar surge protection device is also from the DE 103 04 492 B4 known. In this overvoltage protection device, the modularity is further increased by not only the base part is designed for receiving the male part, but in addition a usable in the male part additional plug is provided. In this case, a part of the electrical components of the overvoltage protection circuit is arranged in the additional plug-in part. In the in the DE 103 04 492 B4 described embodiment, a spark gap as coarse protection and in the additional plug part a varistor is arranged as fine protection in the male part.

From the DE 15 37 595 A is also a generic surge protection device known. This document discloses a modular socket-type socket unit for receiving overcurrent protection switch units for telecommunications equipment, as well as a pluggable in particular such socket units, also rated according to a modular design overcurrent protection switch unit. The overvoltage protection device consists of a base part which can be fastened on a mounting rail. Two overcurrent protection switch units can be plugged next to each other on this base part.

Likewise is from the DE 10 2005 026 714 B3 an overvoltage protection device is known which comprises a protective device for an electrical network with a multi-pole circuit breaker unit and with an overvoltage protection unit. Several overvoltage protection units can be attached side by side to the circuit breaker unit.

Also from the DE 299 13 426 U1 An overvoltage protection device is known which has an overvoltage protection barrier for the protection of electrical components of electrical installations from voltages, the overvoltage protection barrier being constructed as a module which can be plugged onto a mounting rail mounted on an electrical base part in a detachable manner.

Finally, out of the DE 20 2004 006 227 U1 a surge protection device for the protection of electrical Low-voltage installations known, consisting of a lower housing part with terminals and at least one overvoltage protection element, wherein the overvoltage protection element can be plugged onto the lower housing part. In this case, the overvoltage protection element has an optical status display.

Both in the known from practice overvoltage protection devices as well as in the from DE 103 04 492 B4 known overvoltage protection device, the number of connectable to the surge protective device signal conductor or the number of signal circuits that can be protected with the overvoltage protection device, limited by the number of existing in the base part terminals. If an overvoltage protection for more channels is required, two or more overvoltage protection devices are snapped next to each other on a mounting rail until the required number of terminals for the required number of channels is reached.

Although the respective overvoltage protection devices are spatially combined by the adjacent latching on the mounting rail, an electrical connection between the individual overvoltage protection devices does not take place automatically when snapping on, but must be realized by means of external bridges. To ensure that all required for an application overvoltage protection devices have the same reference potential, so this additional installation work is required, which can lead to errors.

By juxtaposing several surge protection devices to increase the number of connectable signal circuits always takes place an increase in the space requirement in the width, d. H. in the longitudinal direction of the support rail, so that a subsequent increase in the channel is only possible if there is still sufficient space available adjacent to a latched on a DIN rail surge protection device.

The present invention is therefore based on the object of developing an initially described surge protection device such that the simplest possible and variable increase in the number of protection channels is possible.

This object is achieved in the initially described overvoltage protection device initially characterized in that the male part has at least two terminals for at least one electrical conductor, that on the male part another male part in which a at least one arrester having protective circuit is arranged vertically, can be plugged, said further plug-in part also has at least two terminals for at least one electrical conductor and that the plug-in part on its upper side facing away from the upper side at least one electrically connected to a terminal plug contact plug contact, into which a corresponding terminal plug contact of the other plug-in part can be inserted.

In the overvoltage protection device according to the invention, an increase in the number of protective channels is thus achievable in that a plurality of plug-in parts can be stacked on a support rail fastened to a preferably latchable base part, each additional plug each having at least two terminals for at least one electrical conductor. An increase in the number of protective channels is thus not by a lateral juxtaposition of another - consisting of a base part and a plug-in part - surge protection device, but by a vertical plugging another male part - on a plugged already on the base plug part - achieved. If several plug-in parts stacked, the number of protective channels can be increased accordingly by a multiple.

In addition, the invention provides that the male part on its side remote from the base top at least one electrically connected to the terminal plug contact plug contact, in which a corresponding terminal plug contact of another plug-in part can be inserted. This ensures that even when plugging a further plug-in part on the first plugged-in on the base part plug-in part, the reference potential of the other plug-in part is connected to the reference potential of the base part. When stacking the individual plug-in parts, their reference potential is thus automatically looped through by a plug-in part to the next plug-in part and electrically connected to the reference potential of the base part. On the required in the prior art external Brückung the reference potentials of the individual overvoltage protection circuits can thus be dispensed with.

The protective circuits of the individual plug-in parts each have a reference potential against which the overvoltage protection can be constructed. If an overvoltage protection device has several plug-in parts, then it is necessary for the reference potentials of the individual plug-in parts to be connected to one another. According to a first preferred embodiment of the overvoltage protection device according to the invention, therefore, the base part has at least one connectable with reference potential plug contact and the plug part at its base part facing the bottom at least one corresponding to the plug contact and connected to the reference potential of the protection circuit Connection plug contact on. The plug contact in the base part may be formed as a socket and the connection plug contact on the plug-in part as a plug pin, for example. This ensures that when plugging the male part to the base part automatically the reference potential of the male part is electrically connected to the reference potential of the base part, wherein the reference potential of the base part is usually grounded via a connection to the mounting rail.

According to a further advantageous embodiment, it is provided that the base part has at least one connected to the plug contact terminal for a reference potential conductor. As a result, the reference potential of the base part can be led to the outside, for example, connected via a reference potential conductor with a second base part Likewise, the plug-in part and the further plug-in part or the other plug-in parts each have at least one connected to the connector plug terminal for a Bezugspotentialleiterr, so that also the reference potential of the individual plug-in parts is accessible.

As known from the prior art, the base part of the overvoltage protection device according to the invention preferably also has a metallic mounting foot for fastening the overvoltage protection device to a mounting rail. About the mounting base while the reference potential of the base part and possibly provided in the base part terminal for the reference potential conductor can be connected to the grounded mounting rail. The prior art discloses two different types of base elements each having a different grounding capability. In the first variant, the reference potential of the base part and the terminal for the reference potential conductor are connected directly to the mounting rail via the metallic mounting base. In the second variant, the connection is made between with the mounting rail via a gas discharge. However, the user must already decide on one of the two earthing options when selecting the base element.

According to an advantageous embodiment of the overvoltage protection device according to the invention, a switching element is arranged in the base part, via which the reference potential or the terminal for the reference potential conductor either directly or indirectly via an arrester, in particular a gas-filled surge arrester, with the support rail are electrically connected. The arrangement of a mechanical or electrical switch, preferably a manually operable switch, such as a pushbutton switch, a rotary switch or a slide switch, thus either two grounding options can be realized with a base so that the user does not decide in advance for one of the two grounding options got to.

According to a further development of the overvoltage protection device according to the invention, this additionally has, in addition to the base part and at least one plug-in part, a status module which can be plugged onto the topmost plug-in part. In this case, the status module has an evaluation unit for detecting the state of the arresters of the protective circuit of the plug-in part or plug-in parts and a telecommunications contact for remote signaling and / or an optical status display for indicating the state of the arresters of the protective circuit of the plug-in part or the plug-in parts. If the surge protection device is composed of several plug-in parts, the status module serves as a collective status module for all plug-in parts of the surge protection device. Since the status module is plugged onto the top plug-in part, it also forms the upper end of the built-up from the base part and the individual plug-in parts overvoltage protection device. This makes it particularly easy to form in the status module an optical status display for displaying the state of the surge arrester of the surge protective device, wherein the optical status display can be realized for example by a green and a red LED.

Advantageously, the connection of the individual status message signals of the individual plug-in parts takes place without the need for external wiring or external bridging. For this purpose, it is provided that each plug-in part has at least one status plug-in contact on its upper side and at least one status plug-in contact connected to the status plug-in contact and corresponding to the status plug-in contact on its underside. When the individual plug-in parts are placed on one another, not only the reference potential but also the status message signal is simultaneously looped through from one plug-in part to the next plug-in part. In addition, the status module has at its plug part facing the underside at least one status connector plug, which is electrically connected to the evaluation and plugged into the corresponding status plug contact at the top of a male part. As a result, the status message signals of the individual plug-in parts automatically reach the evaluation unit when the status module is plugged on.

According to a further advantageous embodiment of the invention, the base module has at least two further terminals for at least one electrical conductor, via which the overvoltage protection device with an external power source, in particular for the remote message and Display of the state of the surge protective device, can be connected. The connection of the base part via the other terminals supplied auxiliary power with the individual plug-in parts and the status module is also carried out - as the connection of the individual status message signals of the individual plug-in parts - without the need for external wiring or external bridging is necessary.

For this purpose, it is provided that the base part has on its upper side two auxiliary power plug contacts connected to the further Auschlußklemmen. In addition, each plug-in part has on its underside two auxiliary power connection plug contacts and on its upper side two auxiliary power plug contacts connected to the auxiliary power plug-in contacts and corresponding to the auxiliary power plug-in contacts. In addition, the status module on its side facing the plug-in part auxiliary power plug-in contacts are electrically connected to the evaluation and in the corresponding auxiliary power plug contacts on the top of a plug-in part can be inserted. As a result, the auxiliary power automatically passes from each other when plugging the individual plug-in parts from the base part to the individual plug-in parts and to the status module.

In particular, there are a variety of ways to design and develop the overvoltage protection device according to the invention. Reference is made to both the claims subordinate to claim 1, as well as to the following description of two preferred embodiments in conjunction with the drawings. In the drawings show

1 a first embodiment of an overvoltage protection device consisting of a base part, a plug-in part and a status module, in the mounted state,

2 the surge protective device according to 1 , when not yet mounted, diagonally from below,

3 a further perspective view of the overvoltage protection device according to 1 , in the unassembled state,

4 A second embodiment of an overvoltage protection device consisting of a base part, two plug-in parts and a status module, in the mounted state,

5 the surge protective device according to 4 , when not yet mounted, diagonally from below,

6 a further perspective view of the overvoltage protection device according to 4 , in the unassembled state,

7 a perspective view of a base module of an overvoltage protection device according to the invention.

1 shows an embodiment of an overvoltage protection device 1 with one on a mounting rail 2 ratcheted base part 3 , one on the base part 3 plugged plug part 4 and one on the plug part 4 plugged status module 16 as the upper termination of the surge protective device 1 , While 1 the surge protection device 1 shows in the assembled state is in the 2 and 3 the same surge protection device 1 shown in the not yet assembled state, ie there is only the base part 3 on a mounting rail 2 snapped on, but neither the male part 4 on the base part 3 still the status module 16 on the male part 4 attached.

The 4 to 6 show a further embodiment of an overvoltage protection device 1 , this overvoltage protection device 1 two plug-in parts 4 . 4 ' having. In addition, other variants of the surge protection device 1 possible, which differs from the surge protection devices shown in the figures 1 especially distinguish them by having more plug-in parts 4 ' , For example, three or four plug-in parts 4 ' , exhibit. Likewise, an overvoltage protection device 1 even just a base part 3 and a plug-in part 4 or several plug-in parts 4 . 4 ' have, ie without a status module 16 be educated.

This in 7 separately shown base part 3 has a terminal on one end face 5 for connecting a reference potential conductor. In addition, even on the second end face nor a terminal 5 be provided for connecting a reference potential conductor. The plug-in part 4 , in which a protective circuit is arranged with at least one arrester, in the illustrated embodiment, in each case two terminals on the two end faces 6 . 7 for two electrical conductors and one between the two terminals 6 . 7 arranged another terminal 8th for a reference potential conductor. The individual terminals 5 . 6 . 7 For example, they may be designed as screw terminals or as Zugfederanschlußklemmen; In addition, however, other connection techniques are possible.

Like from the 2 and 3 as well as the 5 and 6 it can be seen has the base part 3 on its top 9 one with the terminal 5 connected, designed as a plug socket plug contact 10 or with the terminals 5 connected, designed as sockets plug contacts 10 on. Corresponding to this are on the plug part 4 at the base part 3 facing bottom 11 designed as plug pins connection plug contacts 12 formed with the reference potential of the protection circuit and the terminals 8th are electrically connected to the reference potential conductor. When attaching the male part 4 on the base part 3 become the connection plug contacts 12 of the male part 4 into the plug contacts 10 of the base part 3 inserted, so that the reference potential of the plug-in part 4 arranged protection circuit with the reference potential of the base part 3 connected and thereby the reference potential of the male part 4 over the base part 3 and the mounting rail 2 can be grounded.

At its the base part 3 opposite top 13 has the plug part 4 at least one with the connection plug contact 12 electrically connected plug contact 14 on, in a corresponding terminal plug contact 12 ' another plug-in part 4 ' is pluggable. In the embodiment according to the 4 - 6 , in which on both end faces a terminal 8th provided and at the bottom 11 two connection plug contacts 12 are formed, are also on the top 13 two plug contacts 14 formed, in the two terminal connectors 12 ' another plug-in part 4 ' are pluggable.

Regardless of whether one or two port connectors 12 and one or two plug contacts 14 are formed is when plugging a male part 4 ' on a plug-in part 4 the reference potential of the protective circuit of the male part 4 ' automatically with the reference potential of the protective circuit of the male part 4 connected so that through the connection between the Anschlußsteckkontakt 12 ' and the plug contact 14 or between the connection plug contacts 12 ' and the plug contacts 14 and the electrical connection between the connector plug 12 and the plug contact 10 or between the connection plug contacts 12 and the plug contacts 10 in the base part 3 the reference potential of the male part 4 ' over the male part 4 to the base part 3 is looped through.

In particular from 7 it can be seen that in the base part 3 a trained example as a rotary switch switch 15 is arranged, over which the base part 3 or the terminal 5 optionally directly or indirectly via a - not shown here - arrester, in particular a gas-filled surge arrester, with the mounting rail 2 is electrically connectable. A user of the overvoltage protection device according to the invention 1 Thus, depending on the application between one of the two known from the prior art grounding possibilities of the base part 3 by appropriate actuation of the switch 15 choose.

Like, for example 1 is apparent, the status module indicates 16 on its top 17 an optical status display 18 on, which in the present case is formed by two LEDs. With the help of the optical status display 18 can the state or the status of the surge protective device 1 be displayed directly on the spot. Thus in the evaluation unit in the status module 16 the status of the individual arresters or protective circuits of the individual plug-in parts 4 . 4 ' can be evaluated, the evaluation needs a corresponding status message signal of each plug-in parts 4 . 4 ' , For looping through the individual status message signals of the individual plug-in parts 4 . 4 ' have the plug-in parts 4 . 4 ' at its top 13 . 13 ' designed as a plug socket status plug contact 19 . 19 ' and at their bottom 11 . 11 ' one with the status plug contact 19 . 19 ' connected corresponding, designed as a pin status connector plug 20 . 20 ' on. In addition, the status module indicates 16 at its the plug-in part 4 ' facing bottom 21 also designed as a pin status connector plug 22 on the electrically connected to the evaluation and in the corresponding status plug contact 19 ' in the plug part 4 ' is pluggable.

For remote indication of the state of the overvoltage protection device 1 indicates the status module 16 at its two end faces in each case two terminals 23 . 24 on the with the evaluation unit in the status module 16 are electrically connected. In addition, in the top 17 of the status module 16 a functional shaft 25 arranged, for example, serves to receive a preferably multi-pole bridge, so that the state of the overvoltage protection device 1 about one in the function shaft 25 inserted bridge to an adjacent surge protection device 1 can be transferred.

The base part 3 points next to the two terminals 5 for a reference potential conductor on both ends two more terminals 26 . 27 on, over which the surge protection device 1 with an external power source, in particular for remote signaling and indication of the state of the overvoltage protection device 1 , can be connected. To the from the external power source to the terminals 26 . 27 applied auxiliary power to the individual plug-in parts 4 . 4 ' and the status module 16 to provide, has the base part 3 at its top 9 two with the other terminals 26 . 27 connected auxiliary power plug contacts 28 . 29 on. Also, at the bottom 11 . 11 ' the plug-in parts 4 . 4 ' two auxiliary power connection plug contacts each 30 . 31 respectively. 30 ' . 31 ' and at the top 13 . 13 ' the plug-in parts 4 . 4 ' two each, with the auxiliary power connector pins 30 . 31 respectively. 30 ' . 31 ' connected and to the auxiliary power connector contacts 30 . 31 respectively. 30 ' . 31 ' corresponding auxiliary power plug contacts 32 . 33 respectively. 32 ' . 33 ' educated.

Like from the 2 and 5 The status module can also be seen 16 at its the plug-in part 4 ' facing bottom 21 two auxiliary power connection plug contacts 34 . 35 to which are electrically connected to the evaluation and in the corresponding auxiliary power plug contacts 32 . 33 at the top 13 of the male part 4 or in the auxiliary power plug contacts 32 ' . 33 ' at the top 13 ' of the male part 4 ' are pluggable. As a result, the auxiliary energy passes when plugging the individual plug-in parts 4 . 4 ' automatically from the base part 3 to the individual plug-in parts 4 . 4 ' and to the status module 16 ,

Besides, it is also in the top 9 of the base part 3 a functional shaft 36 formed, in which also a bridge can be inserted, so that the base part 3 via the terminals 26 . 27 supplied auxiliary power via a in the function shaft 36 inserted bridge to adjacent surge protection devices 1 also on the mounting rail 2 are locked on, can be forwarded.

In particular from the 1 and 4 it can be seen that the base part 3 , the plug-in part 4 or the plug-in parts 4 . 4 ' and the status module 16 all have the same width and the same length. In addition, from a comparison of 1 and 4 it can be seen that in the overvoltage protection device according to the invention 1 An increase in the number of protective channels does not lead to an increase in the width but only to an increase in the height.

Claims (15)

Surge protection device for protecting a single or multi-core signal circuit, with one on a mounting rail ( 2 ) attachable base part ( 3 ) and with at least one on the base part ( 3 ) Plug-in part ( 4 ), in which a protective circuit having at least one arrester is arranged, characterized in that the plug-in part ( 4 ) at least two terminals ( 6 . 7 ) for at least one electrical conductor that on the male part ( 4 ) another plug-in part ( 4 ' ), in which a protective circuit having at least one arrester, is arranged vertically with respect to the longitudinal direction of the mounting rail ( 2 ) is attachable, wherein the further plug-in part ( 4 ' ) also at least two terminals ( 6 ' . 7 ' ) for at least one electrical conductor and that the male part ( 4 ) at its the base part ( 3 ) facing away from the top ( 13 ) at least one with a connection plug contact ( 12 ) electrically connected plug contact ( 14 ), in which a corresponding connection plug contact ( 12 ' ) of the further plug-in part ( 4 ' ) can be inserted. Overvoltage protection device according to claim 1, characterized in that the base part ( 3 ) at least one connectable with reference potential plug contact ( 10 ) and the male part ( 4 ) at its the base part ( 3 ) facing the underside ( 11 ) at least one to the plug contact ( 10 ) and connected to the reference potential of the protection circuit terminal plug contact ( 12 ) having. Overvoltage protection device according to claim 2, characterized in that the base part ( 3 ) at least one with the plug contact ( 10 ) connected terminal ( 5 ) for a reference potential conductor. Overvoltage protection device according to claim 2 or 3, characterized in that the plug-in part ( 4 ) at least one with the connection plug contact ( 12 ) connected terminal ( 8th ) for a reference potential conductor. Overvoltage protection device according to one of claims 2 to 4, characterized in that the connection plug contact ( 12 ' ) of the further plug-in part ( 4 ' ) is connected to the reference potential of the protection circuit and that the further plug-in part ( 4 ' ) at least one with the connection plug contact ( 12 ' ) connected terminal ( 8th . 8th' ) for a reference potential conductor. Overvoltage protection device according to one of claims 3 to 5, characterized in that in the base part ( 3 ) a switching element ( 15 ) is arranged, via which the at least one terminal ( 5 ) for the reference potential conductor either directly or indirectly via an arrester, in particular a gas-filled surge arrester, with the mounting rail ( 2 ) is electrically connected. Overvoltage protection device according to one of claims 1 to 6, characterized in that a status module ( 16 ) on the top plug-in part ( 4 . 4 ' ), the status module ( 16 ) an evaluation unit for detecting the state of the arresters of the protective circuit of the male part ( 4 ) or the plug-in parts ( 4 . 4 ' ) and a remote signaling contact for remote signaling and / or a visual status indication ( 18 ) for indicating the state of the arresters of the protective circuit of the male part ( 4 ) or the plug-in parts ( 4 . 4 ' ) having. Overvoltage protection device according to claim 7, characterized in that the plug-in part ( 4 . 4 ' ) on its upper side ( 13 . 13 ' ) at least one status terminal contact ( 19 . 19 ' ) and on its underside ( 11 . 11 ' ) at least one, with the status terminal contact ( 19 . 19 ' ) and to the status terminal contact ( 19 . 19 ' ) corresponding status connector ( 20 . 20 ' ) having. Overvoltage protection device according to claim 8, characterized in that the status module ( 16 ) at its the plug-in part ( 4 ' ) facing the underside ( 21 ) at least one, with the evaluation unit electrically connected Statusanschlusssteckkontakt ( 22 ) which is in the corresponding status terminal contact ( 19 ' ) of the male part ( 4 ' ) can be inserted. Overvoltage protection device according to one of claims 7 to 9, characterized in that the status module ( 16 ) at least one terminal electrically connected to the evaluation unit ( 23 . 24 ) for at least one electrical conductor for remote signaling of the state of the arresters of the protective circuit of the male part ( 4 ) or the plug-in parts ( 4 . 4 ' ) having. Overvoltage protection device according to one of claims 7 to 10, characterized in that in the status module ( 16 ) at least one electrically connected to the evaluation unit functional shaft ( 25 ) is formed for receiving a bridge. Overvoltage protection device according to one of claims 1 to 11, characterized in that the base part ( 3 ) at least two additional terminals ( 26 . 27 ) for at least one electrical conductor. Overvoltage protection device according to claim 12, characterized in that the base part ( 3 ) on its upper side ( 9 ) two with the other terminals ( 26 . 27 ) auxiliary power plug contacts ( 28 . 29 ), that the male part ( 4 . 4 ' ) on its underside ( 11 . 11 ' ) two auxiliary power connection plug contacts ( 30 . 30 ' . 31 . 31 ' ) and at its top ( 13 . 13 ' ) two, with the auxiliary power connection plug contacts ( 30 . 30 ' . 31 . 31 ' ) and to the auxiliary power connector ( 30 . 30 ' . 31 . 31 ' ) corresponding auxiliary power plug contacts ( 32 . 32 ' . 33 . 33 ' ) and that the status module ( 16 ) at its the plug-in part ( 4 . 4 ' ) facing the underside ( 21 ) two auxiliary power connection plug contacts ( 34 . 35 ), which are electrically connected to the evaluation unit and in the corresponding auxiliary power plug contacts ( 32 . 32 ' . 33 . 33 ' ) at the top ( 13 . 13 ' ) of a male part ( 4 . 4 ' ) are plugged. Overvoltage protection device according to claim 12 or 13, characterized in that in the base part ( 3 ) at least one with the terminals ( 26 . 27 ) electrically connected functional shaft ( 36 ) is formed for receiving a bridge. Surge protection device with a base part ( 3 ), at least one on the base part ( 3 ) Plug-in part ( 4 ) and one on the top plug-in part ( 4 . 4 ' ) plugged status module ( 16 ), according to one of claims 1 to 14, characterized in that the base part ( 3 ), the male part ( 4 ) or the plug-in parts ( 4 . 4 ' ) and the status module ( 16 ) all have the same width and the same length.

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