DE202007014192U1 - Device for protection against overvoltages - Google Patents

Abstract

Device for protection against surges in an electric power supply system consisting of a one-piece or multi-part united into one Base casing (1), the connection contacts (L1, L2, L3) for three phase conductors and a Neutral conductor (N) and a PE conductor (PE), as well as installation sites (2, 3, 4) for three varistor dischargers for the three phase conductors (L1, L2, L3) and for a spark gap (5) for the neutral conductor and PE conductor, wherein the housing lower part (1) underside mounting hardware (6) for mounting on and for fixing to a DIN rail or the like installation rail as part of a building having provided electrical installation and wherein the housing length a Measure, which corresponds to four times a module dimension of about 17.5mm, so that three Varistorableiter, each with a width of 17.5mm and a spark gap with a width of 17.5mm next to each other are to be arranged, characterized in that the three installation places (2, 3, 4) for the Varistorableiter are equipped with plug contacts (9), in the the Varistorableiter with appropriate ...

Description

The The invention relates to a device for protection against overvoltages in an electric power supply system consisting of a one-piece or multi-part united into one Base casing, the connection contacts for has three phase conductors and a neutral conductor and a PE conductor, as well as installation places for three Varistorableiter for the three phase conductors and for one Spark gap for the neutral conductor and PE conductor, wherein the lower housing part lower mounting hardware for mounting on and for mounting on a DIN rail or like installation rail as part of a building side having provided electrical installation and wherein the housing length a Measure, which corresponds to four times a module dimension of about 17.5mm, so that three Varistorableiter, each with a width of 17.5mm and a spark gap with a width of 17.5mm next to each other are to be arranged.

Such equipment are known in the art. the lower housing part is usually made a one-piece Element containing the appropriate installation places and Has terminals. There are also multi-part housing lower parts known, the items are coupled together and, for example be connected by riveting, so that a corresponding unit is created. Such devices are installed for example in control cabinets or the like. In these cabinets are, for example, DIN rails or other shaped installation rails arranged on the appropriate circuit breakers, residual current device and surge protection devices applied can be. The usual Equipment, which are introduced, for example, in such cabinets, have a standard measure in the Grid of 17.5mm. For example, circuit breakers can be a Width of 17.5mm. equipment for protection against overvoltages, the three phase connections and have a neutral conductor or PE conductor connection, usually four times the width, four times 17.5mm. To be within the grid size to stay and thus easily perform the installation can, There is a need for such overvoltage protection devices in this Pitch to shape. The grid should be four times 17.5mm if possible not exceeded Be the installation in the usual way Ensure pitch to be able to.

in the In the prior art, such surge protective devices are known, where the lower part of the device Connection contacts for three to be connected Phase conductors as well as for a neutral conductor and PE conductor. To protect the phase conductors are three installation places for varistor discharge provided, which are equipped with varistor discharge. To protect the Plant is also a spark gap on the neutral conductor and PE conductor connected. For this purpose, the lower housing part corresponding terminals to connect of wires on. In the prior art, it is known Varistorableiter and spark gaps permanently install, so for example with Screw terminals, soldered connections, Welded joints or The like to the corresponding terminals of the housing base to join. Such an arrangement is disadvantageous in that, in particular Depending on the load, the varistor conductors are subject to wear or even destroyed can be so that a replacement of the varistor diverter is required. This turns out to be relatively difficult, provided the varistor arresters solid connected to the corresponding terminals.

Out For this reason, it is known, all installation sites, ie both the installation sites for the Varistorableiter as well as the installation sites for the spark gap as pluggable installation places be formed, which are equipped with resilient contact terminals, so that the corresponding module, so for example a Varistorableiter or a spark gap is plugged into the corresponding slot can be, with the resilient contact terminals of the contact between the device lower side Terminals and the inserted components is effected. A such education is re the Varistorableiter very well functioning. With regard to the spark gap There is the problem that the spark gap, in particular if the whole device a high lightning current carrying capacity should have and on a current passage of for example until must be designed for 50 KA. If such high achievements over the resilient contacts and then over the Run spark gap, merge or burn the springy Connection contacts, which leads to a defect of the system.

A consideration to the effect that the connection contacts of the spark gap are dimensioned correspondingly large be able to withstand the occurring current loads without damage to be able to fail remember that then the desired one Pitch exceeded would, because then the installation space for the NPE spark gap greater than 17.5mm wide would fail. You could Although the spark gap in double grid, so in 35mm wide form. The result would have but this, that the total component by a standard unit of 17,5mm would be bigger, so that a larger installation space need would. This is not wanted.

Based on this prior art, the present invention seeks to provide a corresponding device in which despite adherence to the desired standard dimension of four times 17.5 mm width, a detachable arrangement of varistor discharge is achieved and an arrangement of the spark gap is achieved, which is at least up to 50 KA lightning current carrying capacity.

to solution this task strikes the invention that the three installation sites for the varistor with Plug contacts are equipped in the varistor with corresponding contacts are pluggable, and the installation space for the spark gap Has contacts fixed with the contacts of the spark gap and are not resiliently connected.

in this connection are the installation places for the Varistorableiter continue, as is well known, with plug contacts equipped so that the varistor discharge easily replaced can be, if they are broken.

Of the Installation place for the spark gap is designed so that the spark gap with their contacts firmly with the contacts of the installation place connected, so not over resilient contacts or the like. By the firm connection of the Contacts with each other is a current load of for example until to 50 KA possible, without causing fusion or burning of the contacts comes.

The necessary consequence that with a defect of the spark gap these only through elaborate manipulation could be expanded, is of minor importance insofar as the spark gap is almost indestructible is. Usually Today, such spark gaps are in a so-called graphite technology executed so that the spark gap is not destroyed even with high lightning currents and a replacement of the spark gap due to a failure thereof is not required. By the firm connection of the contacts together, the width of the entire element is not increased, so that the whole device a maximum width of four times 17.5mm does not exceed.

Prefers is also provided that the device has a housing upper part, with the lower housing part connectable, in particular plug-in connection, wherein the upper housing part the plug contacts covered and guide slots for the Contacts of the varistor has, which to the plug contacts to lead, and a cap that holds the contacts of the installation place of Spark gap and the spark gap contacted with it, as well as to the outside and to the adjacent installation place of a varistor conductor closed is.

The Housing top essentially covers all Components of the housing base including, the installed spark gap. Only the slots for the Varistorableiter are formed open, so that from the lower housing part and the upper housing part existing part is manageable as a complete unit, the Varistorableiter are pluggable, without the upper housing part of the housing lower part to lose weight.

A preferred development is seen in that the lower housing part in cross-section U-shaped is formed, wherein in the legs, the plug contacts and the Contacts for the spark gap are arranged and between the thighs slots for the Varistorableiter and the installation space for the spark gap trained are, and that the upper housing part also U-shaped is and receives the legs of the base, the base covered and covers the installation site of the spark gap.

These Training is a particularly functional arrangement that the arrangement of the corresponding contacts and terminals as well the training of the slots for the Varistorableiter makes feasible in a simple manner.

Especially Preferably, it is provided that the contacts of the spark gap with bolted to the contacts of the installation place, soldered, welded or riveted.

The firm connection of the contacts of the spark gap with the contacts of the installation place is completed in this way, so that the desired Lightning current carrying capacity of for example up to 50 KA is achieved.

One embodiment The invention is illustrated in the drawing and in the following described in more detail.

It shows:

1 an inventive device in plan view;

2 the lower housing part and the upper housing part in a side view in a pre-assembly position;

3 and 4 the complete device seen from above as an oblique view;

5 the housing lower part seen in plan view;

6 the device in section VII / VII of 5 seen.

In the drawing, an overvoltage protection device is shown, which is incorporated into an electrical power system can. In the exemplary embodiment, the device consists of a one-piece housing lower part 1 , which has connection contacts L1, L2, L3 for three phase conductors and connection contacts N for a neutral conductor and PE for a ground conductor. The connection contacts are each designed as screw contacts, so that corresponding connection conductors can be fed from the outside and connected to the connection contacts. Furthermore, the lower housing part 1 installation places 2 . 3 . 4 for Varistorableiter on, as well as an installation place 5 for a spark gap, which is connected to the terminals N and PE. The lower housing part has mounting parts on the underside 6 on, which serve to attach the device to a DIN rail or the like installation rail.

The entire housing length of the device base 1 is a quadruple of a modular dimension of 17.5mm. Corresponding to this module dimension, three varistor conductors of corresponding width are arranged side by side in the area of the installation places 2 . 3 . 4 to arrange. The installation place 5 for the spark gap has a corresponding Normaß of 17.5mm.

According to the invention, the three installation places 2 . 3 . 4 formed for the varistor with plug contacts, in which the varistor are plugged with appropriate contacts. The installation place 5 for the spark gap has contacts 7 on, stuck with the contacts of the spark gap 5 are connected, so not resilient, but rigid.

A such design allows a high current load in case of lightning currents or The like of up to 50 KA in the area of the spark gap, without that thereby contacting the spark gap with the corresponding Terminal contacts destroyed would.

The entire device base 1 is from an upper housing part 8th covered, which with the lower part of the device 1 is connected, for example, plug-connected. The upper housing part 8th covers the plug contacts 9 and has guide slots 10 for the contacts of the varistor discharge, which leads to the plug contacts 9 to lead. Furthermore, the housing upper part 8th a cap 11 on that the contacts 7 the spark gap 5 and the spark gap contacted thereby 5 covered, with the cap 11 the spark gap 5 covered and shielded on the front and on both sides.

The lower part of the device 1 is formed in cross-section U-shaped, with the plug contacts in the legs 9 and the contacts 7 for the spark gap 5 are arranged and slots between the thighs 2 . 3 . 4 for the varistor discharge and the space for the spark gap 5 are formed. Also the upper housing part 8th is substantially U-shaped and takes in the mounting position desired the legs of the lower part, wherein the upper housing part covered with a wall, the base of the lower part and also the installation space of the spark gap 5 with the cap 11 covered. After compiling the device base 1 , as in 2 can be seen, the housing upper part 8th in the direction of the movement arrow 12 be plugged and set position on the housing base 1 be locked.

The contacts 7 the spark gap 5 are bolted to the contacts N or PE of the installation site, soldered, welded or riveted.

Inside the bottom of the device base 1 appropriate connections between the terminals of the varistors and the spark gap can be mounted in the form of contact rails or in the form of conductor tracks.

The invention provides a device for protection against overvoltages under protection, in which the varistors are pluggable, the spark gap 5 is firmly installed and a total size of four times 17.5mm width is not exceeded, while still a high current carrying capacity of the contacts of the spark gap 5 reached, which survives up to 50 KA without damage.

The L1, L2, L3, N and PE terminals can be marked on the upper part of the housing 8th corresponding identification labels 13 be arranged.

The Invention is not on the embodiment limited, but in the context of the Revelation often variable.

All new individual items disclosed in the description and / or drawing. and combination features are considered essential to the invention.

Claims (4)

Device for protection against overvoltages in an electrical power supply system, consisting of a one-part or multi-part unit base unit ( 1 ), which has connection contacts (L1, L2, L3) for three phase conductors as well as a neutral conductor (N) and a PE conductor (PE), as well as installation sites ( 2 . 3 . 4 ) for three varistor leads for the three phase conductors (L1, L2, L3) and for one spark gap ( 5 ) for the neutral conductor and PE conductor, wherein the housing lower part ( 1 ) underside mounting parts ( 6 ) for mounting on and for fixing to a DIN rail or the like chen installation rail as part of a building-side provided electrical installation and wherein the housing length has a dimension which corresponds to four times a module size of about 17.5mm, so that three varistor each with a width of 17.5mm and a spark gap with a width of 17, 5mm next to each other, characterized in that the three installation places ( 2 . 3 . 4 ) for the varistor discharge with plug contacts ( 9 ), in which the varistor arresters are pluggable with corresponding contacts, and the installation space for the spark gap ( 5 ) Contacts ( 7 ) connected to the contacts of the spark gap ( 5 ) are fixed and not resiliently connected. Overvoltage protection device according to Claim 1, characterized in that the device has an upper housing part ( 8th ), which with the housing lower part ( 1 ), in particular plug-in connection, wherein the upper housing part ( 8th ) the plug contacts ( 9 ) and guide slots ( 10 ) for the contacts of the varistor arresters connected to the plug contacts ( 9 ) and a cap ( 11 ), the contacts ( 7 ) of the installation site of the spark gap ( 5 ) and the spark gap contacted with it ( 5 ), as well as to the outside and to the neighboring installation place ( 2 ) is closed a Varistorableiters. Device for protection against overvoltages according to one of claims 1 or 2, characterized in that the housing lower part ( 1 ) is U-shaped in cross section, wherein in the legs of the plug contacts ( 9 ) and the contacts ( 7 ) for the spark gap ( 5 ) are arranged and between the legs of the slots ( 2 . 3 . 4 ) for the Varistorableiter and the installation space for the spark gap ( 5 ) are formed, and that the upper housing part ( 8th ) is also U-shaped and the legs of the lower part ( 1 ), its base is covered and the installation space of the spark gap ( 5 ) covered. Overvoltage protection device according to one of Claims 1 to 3, characterized in that the contacts of the spark gap ( 5 ) with the contacts ( 7 ) are screwed, soldered, welded or riveted to the installation site.