DE10024560A1 - Surge protection device - Google Patents

Abstract

Unit with protector elements for the protection of low-voltage installations against voltage excesses comprises a base (1) with conductor bridges (3) which span the input and output sides of the unit, and connect the phase leads to the protector elements. The base is also provided with a conductor bridge (4) at a right angle to the bridges (4) for analogous connection of the neutral/earth lead.

Description

The invention relates to a surge protection device for the protection of electrical low voltage installations against overvoltages, consisting of a Lower part of the device with terminals for phase conductors and earth or neutral conductor as well as with preferably designed as slots Installation locations with the connection terminals are electrically connected and into the surge protective elements in the form of varistors, spark gaps or the like, are inserted or inserted.

The correct use of surge protective devices in Low voltage installations is in national and international standards presented in great detail. However, these standards set an electrotechnical one  Special knowledge ahead, which is often an electro Installer or an electrical planner overwhelmed. It namely need a variety of installation conditions to be considered when planning a electrical system and also in the artisanal Execution of the plant must flow. A wrong one Installation of surge protective devices can be used Consequence that individual lines and thus the protective devices continue to be impermissibly high Are exposed to voltage loads. In extreme cases due to incorrect installation the whole Surge protection become inoperative. It can too to overloads of surge protective devices Operating voltages come.

These problems have led to a broad Acceptance of surge protective devices by the Electrical planners and also for electrical installation could not be reached. In addition, through Failures despite existing surge protective devices questioned the trust in this installation.

Conventional surge protective devices have connections  a lower housing part on electrical cables, which for example on top hat rails or the like can be mounted in the Central distribution of an electrical system are provided.

The installation is preferably done near the entrance of the electrical supply lines on the building side, thus the entire network of the house equipped with it can be protected. The actual surge protective elements are, for example, varistors or also spark gaps, for example in the form of plug-in elements are designed so that they can be plugged into the corresponding lower part of the device can be used.

To install such an overvoltage protection device, which, for example, should protect the phase-conducting conductors L ₁ , L ₂ , L ₃ , and the neutral conductor N and, if appropriate, also the PE conductor, is in the known designs on the lower part of the device, which is, for example, U-shaped can be provided in the region of one leg, the arrangement of terminals for phase conductors L ₁ to L ₃ and the neutral conductor. For example, earth connections can be provided on the other leg of the housing, that is on the opposite side. Such a device can not be looped into an existing installation, in particular in the wiring harness, but due to the technical circuit requirements, it is necessary to provide a parallel arrangement, so that, for example, branches leading from the phase-leading conductors of the installation system (L ₁ to L ₃ ) which must then be connected to the corresponding connections of the surge protection device in a manner that differs from the usual installation.

Furthermore there is a connection to the neutral conductor or to provide the PE conductor who again with the potential equalization rail, the is grounded, connected. This way of installation deviates from the usual installation grid, like this, for example, with so-called residual current protection switch or other in the lines looped switches is common.  

The result of this necessary installation many errors. Common sources of error in the Installation of such surge protective devices are, for example, long cable lengths for the Connection between the conductors to be protected and the Surge protective devices. Also the parallel one Laying of unprotected and protected lines is possible and therefore a source of errors. in the the first-mentioned fault case would be too high Line length too much voltage at the connections cables fall off, so that no correct protection is achieved. In the second error case shown would the parallel laying of protected and unprotected lines a significant coupling of surges from the unprotected to the protected lines can result. Also the Connection to the potential equalization rail is common problematic, because the permissible cable lengths are there be crossed, be exceeded, be passed.

Based on this state of the art Invention based on the object To create surge protection device, which in  simple way and using simplest Installation rules installed properly can be.

To solve this problem, it is proposed that Lower housing part in the area of everyone Installation place a continuous ladder bridge has, each with on a housing side arranged first terminal for the coming Line wire and one on the opposite Housing arranged second terminal for the outgoing line wire is contacted that each Conductor bridge of each phase conductor in the area of the associated installation space a connection for the phase connection of the surge protection element has that insulates a transverse to the conductor bridges neutral conductor connecting bridge arranged to these is arranged, each in the area of Installation places a connection for the Neutral conductor connection of the surge protection element has and that with the parallel to the conductor bridges the phase conductor arranged conductor bridge for the Neutral conductor is contacted.  

Furthermore, it is provided that a further Conductor bridge for the PE conductor parallel to the others Conductor bridges is arranged, the one end corresponding first and second terminals has that in the area of the installation site Conductor bridge for the neutral conductor a connection for the neutral conductor connection of the surge protection element is provided with the neutral conductor connecting bridge is contacted, as well as another Connection for the overvoltage protection element, which with a connecting bridge is contacted, which is isolated is arranged to the neutral conductor and with the PE conductor bridge is electrically connected.

The design according to the invention makes it possible to carry out the installation of the overvoltage protection device in a simple manner in such a way that it is practically possible to loop through the incoming and outgoing lines. The overvoltage protection device can be connected in a simple manner by feeding the individual conductors (L ₁ , L ₂ , L ₃ ), neutral conductor and PE conductor parallel to one another and by connecting them to the connections on one side of the housing, the outgoing lines being practical can be connected coaxially to these incoming connections on the other side of the housing. The conductor bridges of the phase conductors and, if applicable, also the neutral conductor and PE conductor ensure correct and simple wiring, and excess lengths or loops are also avoided. Characterized in that, on the one hand, connection contacts for the respective phase connection of the overvoltage element to be used are provided at the inputs of each conductor bridge and the neutral conductor connecting bridge is provided on the other contact area of the overvoltage protection element, the electrically correct wiring or connection between the intended overvoltage protection elements and the network guaranteed. If necessary, a further conductor bridge for the PE conductor can be provided, which is only electrically connected to the conductor bridge of the neutral conductor, so that a corresponding surge protection element, for example a gas arrester, can be used in the corresponding connection contacts of the neutral conductor, which is necessarily correct is installed. The surge protective device must be integrated into the electrical line in such a way that it corresponds to the installation habits of electrical installers. A distribution is usually wired from bottom to top, with the individual line wires running parallel to each other. Such an installation direction can be implemented in a simple manner with the surge protection device according to the invention, since the device has inputs at the bottom and outputs at the top which can be connected to the corresponding conductors. This also almost spatially separates the lines and also makes it difficult, if not impossible, to lay protected and unprotected lines in parallel. The problem of cable lengths which adversely affect the installation is also avoided since all the lines to be protected are brought together on the surge protection device and are correctly connected there using the shortest cable lengths. The installation and assembly of surge protective devices is made considerably easier as a complete installation solution is built integrally in the device. With an appropriate design of the device, the device can be used for all network types, so that it does not require the installer to know about the network type.

As already stated, this enables the invention Do the installation according to the installation habits of the electrical trade since the installer Similar types of installation, for example at Installation of residual current circuit breakers is used. The lower terminals are also used there as an input used and the upper terminals form the outlets. The the remaining installation instructions only exist insofar as the surge protective device always must be installed directly at the entrance to the installation and no further connections between the protected and unprotected lines may be.

It is a particularly preferred further training seen that the lower housing part is approximately U-shaped  is formed, being in the base of the U-shape parallel to each other and electrical from each other isolated in a first, lower level Conductor bridges arranged in the form of sheet metal strips are the ends in the region of the legs of the U-shape have the terminals, their cable insertion channels each parallel or quasi coaxial to the corresponding conductor bridge from each other Open opposite surfaces of the legs.

In addition, it can preferably be provided that the transverse to neutral conductors arranged Connecting bridge in the area of one leg of the U shape or in the base near the leg in one second level insulated from the jumpers of the Phase conductor of the first level is arranged and with the conductor bridge of the neutral conductor electrically is connected, in particular on this contacting in the intersection area.

It is also preferably provided that in the area of other leg or in the base near the leg in the second level in the area of everyone  Installation site of a surge protector element for the phase conductor with the respective Conductor bridge contacting and opposite adjacent conductor bridges insulated part as Connection is arranged.

It is also preferred that in the area of the other Thigh or in the base near the thigh in the second level in the area of coverage Conductor bridge of the neutral conductor and the PE conductor the connecting bridge in the form of a die Conductor bridge of the PE conductor contacting and opposite the conductor bridge of the neutral conductor insulated metal strip is formed.

It is also preferred that each surge element is made of a varistor arranged in a housing or there is a spark gap with contacts with the connections of the lower housing part electrically are connected (in the position of use), so that Surge element the electrical connection each between the conductor bridge of the phase conductor and the neutral conductor bridge and the  Connection bridge between neutral conductor and PE conductor represents.

An embodiment of the invention is in the Drawing shown and below in more detail described. It shows:

Fig. 1 an overvoltage device according to the invention schematically in plan view;

Fig. 2 also seen in section II / II of Fig. 1;

Fig. 3 also seen in section III / III of Fig. 1;

Fig. 4 seen a section in section IV / IV of Fig. 1;

Fig. 5 is a section V / V of Fig. 1;

Fig. 6 is a section VI / VI seen in FIG. 1.

The view of FIG. 1 corresponds approximately to the view of section line I in FIG. 3.

An overvoltage protection device for protecting low-voltage electrical installations against overvoltages is shown in the drawing. It consists of a lower device part 1 with terminals for the phase conductors L ₁ , L ₂ , L ₃ and the earth conductors PE and the neutral conductors N. Furthermore, in the exemplary embodiment, installation locations designed as slots are provided on the lower part, which are in electrical connection with the connection terminals. The actual overvoltage protection elements 2 are designed in the form of varistors or spark gaps and can be plug-connected to the lower part 1 as cuboid-shaped elements, with the plug securing the position securing on the one hand and the proper electrical contacting on the other.

A continuous conductor bridge 3 is provided in the area of each installation location for a surge arrester 2 . The continuous conductor bridge 3 shown in the drawing figure 1 on the left connects the input L ₁ at the bottom with the output L ₁ 'at the top. The adjacent conductor bridge 3 , which is arranged in parallel, connects the input L ₂ with the output L ₂ '. The further conductor bridge 3 , which in turn is located next to it, connects the input L ₃ at the bottom to the output L ₃ 'at the top. The next conductor bridge 3 connects the input N at the bottom with the output N 'at the top. The next conductor bridge 3 in turn connects the input PE at the bottom with the output PE 'at the top. For example, by plastic insulating elements isolated to the conductor bridges 3 , a neutral conductor connecting bridge 4 arranged transversely to these is provided on the upper end region of the conductor bridges 3 in the installation direction according to FIG . This connecting bridge 4 is not electrically connected to the phase-conducting conductor bridges 3 of the conductors L ₃ to L ₃ , but is electrically insulated from them and lies on the conductor bridge 3 of the neutral conductor N in an electrically conductive manner. In the area shown in the drawing figure _1, a connection element is provided above each conductor bridge 3 for the phase conductors L ₁ to L ₃ , by means of which the phase connection of the respective surge arrester 2 can be plug-connected and electrically conductively connected to the bridge underneath. The provided within the surge arrester element 5 is electrically connected to the plug connections of the surge arrester 2 , as can be seen for example from FIGS. 4 and 5. The conductor bridge 3 for the PE conductor is connected via a connecting bridge 6 to the connection area of the overvoltage protection element above the conductor bridge of the neutral conductor N, this connection being insulated from the conductor bridge 3 of the neutral conductor. The connecting bridge 6 is, however, electrically conductively connected to the conductor bridge 3 of the PE conductor, that is to say can be placed on it in a contacting manner, for example. When surge arresters are plugged in, an electrical connection is established between the input connection L ₁ E, L ₂ E, L ₃ E and PEE on the one hand and the associated neutral conductor connection NA. This ensures proper wiring, while the corresponding top and bottom outlets and inputs of the cables also ensure simple and correct installation. As can be seen in particular from FIGS. 4 to 6, the lower housing part is essentially U-shaped. In this case, the arrangement of the conductor bridges 3 is provided in the base of the U-shape parallel to one another and electrically insulated from one another in a first lower level, which can be designed, for example, in the form of copper sheet metal strips or the like. In the area of the legs of the U-shape, the corresponding connection terminals are arranged in the areas designated L ₁ , L ₂ , L ₃ , N and PE or L ₁ ^' , L ₂ ^' , L ₃ ', N' and PE ' Marked are. The cable insertion channels are thus each aligned quasi coaxially with the corresponding conductor bridges 3 .

The transverse to the conductor bridges 3 arranged neutral conductor connection bridge 4 is the form of U-provided near the one leg of the lower part 1 in a second plane overlying the first plane, which is spanned by the bridges 3, wherein between the bridges 3 and the neutral conductor connecting bridge 4 is provided with electrical insulation. The bridges 3 are also spaced apart and isolated from one another. Only in the crossing area of the conductor bridge 3 , which forms the neutral conductor connection N, is the neutral conductor connecting bridge 4 placed in contact with the corresponding bridge 3 , so that the desired electrical connection between the bridge 4 and the bridge 3 of the N conductor is established. Near the other leg of the lower part 1 , an example plate-shaped connecting element is provided in the area of each installation site of a surge protection element 2 for the phase conductors L ₁ to L ₃ , which has connector means as a plug connection of the corresponding surge conductor. The individual elements L ₁ E, L ₂ E, L ₃ E are arranged next to one another and insulated from one another and in each case only connected in a contacting manner to the conductor bridge 3 located underneath. In the area of the neutral conductor N and the PE conductor, the bridge 6 is arranged, which lies in contact with the PE conductor and is insulated from the neutral conductor N (the corresponding conductor bridge 3 ). This bridge is also formed, for example, by a sheet metal strip.

Each overvoltage element 2 can have a varistor or a spark gap in its housing as a protective element 5 , this corresponding protective element being electrically connected to connector contacts 7 , which in turn can be inserted into the corresponding connector elements which are formed or arranged above the conductor bridges 3 . In addition, an element for remote signaling can be used in a corresponding free space of the lower part 1 , which is formed above the conductor bridge 3 of the PE conductor, which signals in a manner known per se when a surge arrester has failed or has been claimed.

The surge protector shown in the embodiment is suitable for all common network types and is therefore to be installed by the installer without knowing the network type. In addition, the device can be integrated into an existing line in an extremely simple manner in that the device can be installed in a conventional manner with input lines arriving at the bottom and outgoing lines going out analogously to the illustration in FIG. 1.

The invention is not based on the embodiment limited, but often within the scope of the disclosure variable.

All new, in the description and / or drawing disclosed individual and combination features regarded as essential to the invention.

Claims (7)

1. Overvoltage protection device for protecting electrical low-voltage installations against overvoltages, consisting of a lower part of the device ( 1 ) with terminals for phase conductors (L ₁ -L ₃ ) and earth or neutral conductors (PE, N) as well as preferably designed as slots, with the Terminals are electrically connected and inserted or inserted into the overvoltage protection elements ( 2 ) in the form of varistors, spark gaps or the like, characterized in that the lower housing part ( 1 ) has a continuous conductor bridge ( 3 ) in the area of each installation location, each of which with a first connection terminal arranged for the incoming line wire and a second connection terminal arranged for the outgoing line wire arranged on the housing side is contacted that each conductor bridge ( 3 ) of each phase conductor (L ₁ -L ₃ ) in the area of the associated gene installation site has a connection for the phase connection of the overvoltage protection element ( 2 ) that insulated from the conductor bridges ( 3 ) is arranged a neutral conductor connection bridge ( 4 ) arranged transversely to these, each of which has a connection for the neutral conductor connection of the overvoltage protection element ( 2 ) and which is in contact with the conductor bridge ( 3 ) for the neutral conductor (N) which is arranged parallel to the conductor bridges ( 3 ) of the phase conductors (L ₁ -L ₃ ). 2. Surge protection device according to claim 1, characterized in that a further conductor bridge ( 3 ) for the PE conductor is arranged parallel to the other conductor bridges ( 3 ), which has a corresponding first and second terminal at the end, that in the area of the installation site of the conductor bridge ( 3 ) a connection is provided for the neutral conductor for the neutral conductor connection of the overvoltage protection element ( 2 ), which is in contact with the neutral conductor connection bridge ( 3 ), and a further connection for the overvoltage protection element ( 2 ), which is in contact with a connection bridge ( 6 ), which is insulated from the neutral conductor (N) and is electrically connected to the PE conductor bridge ( 3 ). 3. Surge protection device according to claim 1 or 2, characterized in that the lower housing part ( 1 ) is approximately U-shaped, wherein in the base of the U-shape parallel to each other and electrically isolated from each other in a first, lower level, the conductor bridges ( 3 ) are arranged in the form of sheet metal strips, the ends of which have the connecting terminals in the region of the legs of the U-shape, the cable insertion channels of which open out parallel or quasi-coaxially to the corresponding conductor bridge ( 3 ) from the surfaces of the legs facing away from one another. 4. Surge protection device according to one of claims 1 to 3, characterized in that the transverse to the conductor bridges ( 3 ) arranged neutral conductor connecting bridge ( 4 ) in the region of one leg of the U-shape or in the base near the leg in a second plane the phase conductor (L ₁ -L ₃ ) of the first level is insulated from the conductor bridges ( 3 ) and is electrically connected to the conductor bridge ( 3 ) of the neutral conductor (N), in particular is in contact with it in the crossing region. 5. Surge protection device according to one of claims 1 to 4, characterized in that in the region of the other leg or in the base near the leg in the second plane in the region of each installation location of a surge protection element ( 2 ) for the phase conductor (L ₁ -L ₃ ) a part (L ₁ E, L ₂ E, L ₃ E) that contacts the respective conductor bridge ( 3 ) and is insulated from neighboring conductor bridges ( 3 ) is arranged as a connection. 6. Surge protection device according to one of claims 1 to 5, characterized in that in the region of the other leg or in the base near the leg in the second plane in the region of the overlap of the conductor bridge ( 3 ) of the neutral conductor (N) and the PE conductor the connecting bridge ( 6 ) is designed in the form of a metal strip which contacts the conductor bridge ( 3 ) of the PE conductor and is insulated from the conductor bridge ( 3 ) of the neutral conductor (N). 7. Overvoltage protection device according to one of claims 1 to 6, characterized in that each overvoltage element ( 2 ) consists of a varistor arranged in a housing or a spark gap, which are electrically connected to terminal contacts with the connections of the lower housing part ( 1 ) (in the position of use ), so that the overvoltage element ( 2 ) the electrical connection between the conductor bridge ( 3 ) of the phase conductor (L ₁ , L ₂ or L ₃ ) and the neutral conductor connecting bridge ( 4 ) and the connecting bridge ( 6 ) between neutral conductor (N) and PE - Head represents.