DE19917597A1 - Installation system for low-voltage (LV) distribution system electrical components - Google Patents

Abstract

An electrical components (4) installation system includes socket-base elements (3) which can be strung together for plugging in various electric components (4) and can be fastened on a fixture rail (2) preferably with an undercut connection (12). The socket-base elements (3) support on both of their sides (19,21) complementary pluggable connections (20) for electrical contact-making, of which two contacts (20) arranged on opposite sides are short-circuited by means of a conductor extending transversely through the base element (3) in order that the voltages to be distributed (via phases (L1---L3) neutral (N) and/or earth) are looped through the row (3) of sockets, with each of the short-circuited conductors electrically connected to an electrical connector (24) serving as the electrical connection of electric components designed as pluggable modules (4).

Description

The invention relates to a system for installing elec tro components of a low-voltage distribution system such as Main switch, circuit breakers, RCCBs, relays or the like. With base elements which can be arranged in a row for plugging in different electrical components, whereby the electrical connection by closing the connector dung takes place, and wherein the base elements preferably with an undercut connection on a mounting rail can be set.

In the conventional art, the various Electrical components of a low-voltage distribution system following an ordering principle on a preferably horizon talen mounting rail arranged side by side. Then takes place the electrical connection of all elements via preferably two wires attached to screw terminals. However, this has the serious disadvantage that even the primary connections the voltage to be distributed, which is common to all electrical compos components of the low-voltage distribution system are to be connected, with specially made, bent, stripped and jumper wires to be clamped laboriously by an electrical comm component must be passed on to the next. The up wall for making and installing this wire bridging is enormous and delays the work of an installa very expensive. In addition, this hides manual Contacting especially when distributing three-phase current system the not inconsiderable danger of a wrong contract in itself, causing damage to devices or even men can endanger human life. After all, it is for the subsequent change or extension of a low chip Distribution system indispensable, the same completely de-energized switch, since the above-mentioned wire jumpers under no order  stands when voltage is applied or removed that may. In some applications, especially in Electricity supplies in hospitals may be necessary disconnection of the voltage considerable problems occur.

From the disadvantages of the known prior art tiert the problem initiating the invention, a genus installation system for the electrical components of a Low-voltage distribution system to develop such that the Installation workload can be reduced especially the insertion of manually created wire jumpers is unnecessary, with a subsequent extension the system also with little effort and possibly without Shutdown of the system should be possible.

To solve this problem, the invention provides that the Base elements on both sides complementary to each other wear re connectors for electrical contact, from which each have two opposing contacts one Base element by means of a across the base element current conductor are short-circuited to distribute the the voltages (phase, neutral and / or ground conductor) grind the row of sockets through, each of these Short circuit conductor with an electrical connection serving as plug-in electronic components Plug connection is electrically connected.

The inventive design of a plug base allows in lined up condition of several pedestals to be distributed tensions due to parallel to the longitudinal direction of the Monta Rail-oriented plug connections from a base pass on to the next without further Wire bridges would have to be made and used. Dar in addition, the socket plug according to the invention Design connections in such a way that even during the Monta Protection against accidental contact is given, which is the case with low voltage  distribution systems for important buildings such as hospitals a subsequent expansion without switching off the system allowed. This is possible because before plugging in an electrical module in the live socket customer-side wiring of the electromo to be installed duls can be carried out in the de-energized state, and only after this work is completed, the module will be in plugged in the relevant socket and thereby to the distributing voltage connected. For this purpose, at sufficient for the first time installation of a system Number of reserve sockets with slots still available can be seen, but an additional base without Ab circuit of a system can be installed later if through suitable design of the plug connections to a be neighboring base element protection against contact even during pushing it to an already existing row of plinths is guaranteed.

It has proven to be favorable that the base Kon clock for the cross connections on one side of a base elements as sockets and on the opposite side are designed as pins, the socket contact surfaces preferably by means of spring force on an inserted one Plug pin are designed to be pressed. According to the invention all plug connections for the different phases, for the Neutral and possibly the grounding conductor on the same base side as All sockets and on the opposite side of the base designed as pins. Furthermore, the box side Contact areas for the formation of a reliable, elec trically conductive connection resiliently formed or with egg Nem spring element coupled so that they to the central axis of the relevant socket or to a plug inserted therein pin are pressed. To make reliable contact, too after a long period of storage of the base according to the invention To guarantee elements, the same can also go out a non-oxidizing material, e.g. stainless steel  be used or with such a material, e.g. zinc, be covered.

The invention can be further developed in that the Contact areas into the base housing so that they are safe to touch attaches and / or by insulating, pivoting or moving bare elements can be covered. Such an arrangement is suitable are particularly interested in adding a row of plinths the end where the outermost base element Plug connections designed as sockets, since sol if necessary, protection against accidental contact even without the cap attached pen or the like. can be achieved.

Furthermore, the invention is characterized by a base element from, which has connectors on one side only are preferably bush-shaped. As stated above leads by unilaterally supplementing base elements implement an almost arbitrarily long busbar, with an extension possible at the opposite end Lichity does not have to be provided. That's why the Erfin sees a closing element, which the other Socket pins provided for cross-connection does not have, whereby at this point the risk of a electric shock for the installation or maintenance person is excluded.

The formed within the base elements of the invention Busbar must be used to feed the chip to be distributed voltage on the primary side to a voltage source, a transforma gate or the like. This is usually done via a main switch, which in the event of a defect inside one of the connected distribution branches the entire never switches off the voltage distribution and thereby larger, should avoid material or health damage. On such a main switch is preferably in the form of a Plug module formed, which connections, for example conclusions for feeding in the voltages to be distributed  has and to forward these voltages in the of Base element looped through to current base element serves. By means of such a main switch can As part of a low-voltage distribution system, several subver form divider rails, each with different system or parts of buildings can be assigned.

Such is preferred, usually with a main switch combined supply module in the first slot that end of the row of columns in question where the base row should not be extended any further. Since the This base usually only has one-sided plug connections points out, this is a special combination of module and base, which in further development of the invention a unit can be integrated. An inter ne connector saved and thus a potential Source of error can be excluded.

Leave in the context of the installation system according to the invention there are also widened base elements with several sockets Realize sensor sets for several electrical modules. This too represents a measure to the number of connectors to minimize within a distribution point according to the invention ren and thereby further potential sources of error conclude. Although the number of possible slots here can be chosen arbitrarily, there is a particularly plain universal system if additional base elements with 2, 4, 8 or even 16 slots are provided.

Another advantageous base element comprises two parts closing options, especially socket sets for elec tromodule, each with only the plug connections on one Base side are conductively connected. On such a base element, a special electrical module can be serially integrated into the Busbars are looped in, for example a shunt counter stood, a current or power sensor, an additional Ab fuse or the like; on the other hand, the two slots  ze also by an electrical module provided with conductor bridges be bridged if the relevant unit is not yet or is no longer needed.

The base elements according to the invention can also be used there further educate that the undercuts on their Back are at least partially slidable with a to allow permanent placement on a mounting rail. The undercut fastening device of a base preferably includes one in the direction of the mounting rail running, groove-shaped recess on the back of the base, the inside top and bottom of the groove bottom to Back of the base element converge towards each other to a complementary trained mounting rail to be able to reach around in a dovetail shape. By doing one of these two mutually converging groove boundary surfaces of the Base element approximately parallel to the plane of the groove base of the groove-shaped recess can be moved away, the can Undulating undercut and thus the positive connection to be solved to the mounting rail. In this condition a base element can be removed from the mounting rail or in addition to this. That’s it possible to extend a row of sockets, regardless of whether additional switchgear on the relevant mounting rail or the like.

Such a base element with releasable undercut elements can be developed in such a way that the same early with the displacement of part of the undercut the lateral pins are moved into the housing. Sol Such a base can also be used in confined spaces conditions in a narrow gap on the fastening supply rail are used so that after placing no displacement of the base along the fastener rail are required. Such training he it especially allows to replace a defective base,  without a large number of neighboring ones for this purpose Need to remove plinths.

In a further development of the invention it is further provided that the Plug connections of the base for inserting an electromo duls are designed as sockets. This measure also serves protection against accidental contact, even when the electrical modules are removed or no live pins for reserve slots protrude outwards.

Personal protection can be further improved by the Socket sockets for the electrical modules in the socket so that they are touch-proof housing recessed and / or with withdrawn elec tro components are covered by insulating elements.

In continuation of this inventive idea, the isolating cover elements as flaps or sliders which, preferably by spring elements in a closing position, when inserting an electrical module from it Pins, however, are moved to the side. Especially in Regarding unused but live reserve slots ze offers this arrangement the advantage that not verse rarely, for example by falling pieces of wire or the like Short circuit can be generated, so that despite the high Grade user-friendly arrangement meets the security requirements is fully taken into account.

It has been proven that one or more in the base Ren preferably all electrical module sockets about a ra locking element movably mounted to the direction of insertion is provided, which by spring pressure to a pin is pressed. Such a latching connection, which is similar cher shape on the side connectors of a base can be realized to a number of several pedestals Similar elements can be connected as firmly as possible Licher function also an automatic loosening of an elec tromoduls, e.g. in case of switch cabinets exposed to vibrations  e.g. B. prevent on ships, so that an extremely zuver casual operation of a low voltage ver divider system can be realized. Bring this into place rendes element can also be independent of the pins on the front or top of a base and in com complementary shape on the adjacent surface of a Electrical module can be realized, such locking elements leave However, in a particularly advantageous manner with the socket Contact surfaces to ra with respect to the center of the socket concerned integrate movable contact surfaces by spring be pressed inward while pressing the electrical contact to the relevant plug elements of the Ensure the electrical module as well as the snap connection term.

By making the plug connections of the electrical modules as several, parallel pins are formed with a single movement that starts with opening the bushings cover flap or slide begins and snaps into place the contact / latching element ends, all on the primary side Connections to the relevant electrical module closed become. Because the electrical module only insulate on it the top and bottom must and can be touched the risk of electric shock even during this short movement phase excluded, so the installation of electrical modules if required, even without switching off the Power supply could be made.

The attachment movement of an electrical module on the relevant one Socket is made easier by the pins of the electromo dule have a tapered tip. Because here defined starting points, the Make it easier to open the cover flaps or slides tert.

The above-described latching of an electrical module with the relevant base element is used to train the electrical system  module pins, the same side recesses have the Einra when plugging in the electrical module most of an inwardly resilient locking element in the subject Allow plug socket. These wells can be used as lateral troughs can be formed or run all around de, groove-shaped depressions.

It has proven to be favorable that the housing of an elec tromoduls has the same width as a base element. In this way, on the one hand, the base through the respective base lement reserved space from the relevant electrical module op timely exploited, and the most diverse electrical components can all be accommodated in the same housing. It also supports the adjacent plug-in slots zen used electrical modules from each other and thereby experience an increased level of mechanical stability, so that even when accidentally knocked, the kink or even cancel one or more pins one Electrical module is excluded.

In continuation of this inventive idea, the Ge Design the housing of an electrical module approximately cuboid. Here by forming the front of the electrical modules after completion the installation of all modules a single level in which For example, feedback devices such as light-emitting diodes, setting devices such as Actuating lever for magnetic fuses, selector switch for Timers or the like can be arranged and thus a particularly clear setting, control and maintenance allow.

So, on the other hand, when actuating setting or son engaging elements of the electrical modules pose no danger nes electric shock, the invention sees white terhin that the secondary connections of the electrical modules are arranged on the top and / or bottom. Trough-shaped depressions can be provided here, for example,  within which the relevant connections deepened and there are arranged to be largely safe from touch.

The connections on the secondary side can be used as screw terminals be carried out, the screw heads concerned just if preferred ver inside the module housing sets and are arranged so that they are safe to touch.

Following the idea of a low-voltage distribution system, will be different of the secondary consumers respectively only one phase of the low-voltage rotation to be distributed power system assigned so that in addition to three-phase modules in particular, single-phase modules can also be implemented, the zero in addition to the preferably designed as a pin point conductor, for example, just another pin for one of the have three phases, so that with such a module Connection of AC consumers to the three-phase system is possible.

Deciding on which phase of a three-phase system AC electrical module is only connected by hit the user himself, so that single-phase Elektromodu le should be able to vary on each of the three phases to be adjustable. A further education serves this purpose extension of the invention, wherein one or more of the pins of a single-phase electrical module can be moved or moved are trained and thereby a variable assignment to ver enable different phases. So it is not required Lich, single-phase electrical modules in three different versions production forms for different phases, which in terms of a change in phase assignment very much would be inflexible, but is such an electrical module characterized solely by its function, while the assignment to a specific phase by moving or move the relevant pin on the back of the electrical module and therefore changed at any time can be.  

To implement a sliding pin, the same be provided with a rear base plate, the in one that runs along the back of the electrical module Linear guide is added. Here, the linear guide be stable enough to withstand the pulling of the elec Tromoduls forces exerted by the locking element without damage of the relevant pin on the electrical module to be able to transfer housing.

Finally, it corresponds to the teaching of the invention that a Slidable pin, especially its rear one Base plate, via a flexible line with the internal Circuit of the relevant electrical module is connected. Though part of the linear guide could also be metallic and conductively with the internal module for the purpose of contacting be connected, a flexible wire connection is ever but considering the relatively rare shifting movement from the point of view of stability completely sufficient and he allows the saving of a metallic guide element, so that this can reduce costs.

Other characteristics, details, advantages and effects on the basis of the invention result from the following Description of a preferred embodiment of the Er and the drawing. This shows two alongside plug on each other on a mounting rail base and an electrical module to be inserted in each perspective view.

The installation system 1 according to the invention for the electrical components of a low-voltage distribution system comprises a mounting rail 2 , base elements 3 which can be fixed thereon and electrical modules 4 which can be inserted therein.

The mounting rail 2 can be made, for example, of brass or of a galvanized metal profile. Here, starting from a flat profile, the two longitudinal edges 5 , 6 can be bent toward the same side, so that there is a cross-section of approximately the outline of a trapezoid, as shown in the figure, or the longitudinal edges 5 , 6 are bent twice. So that there is about a hat-shaped profile (so-called hat rail): In the central web 7 of the fastening supply rail 2 oblong holes 8 are punched at regular intervals, which can be penetrated by screws to anchor the fastening rail 2 on the back of a control cabinet.

The two edges 5 , 6 are bent from the central web 7 from each other diverging forward so that there are undercuts which are encompassed by the base elements 3 by means of complementarily shaped, groove-shaped recesses 9 on their rear sides 10 . Here, the groove top 11 and bottom 12 converge towards each other from the bottom of the groove 11 towards the rear 10 , and can be integrated with the housing 13 of the base element 3 concerned , so that a stiff arrangement results, with a base element 3 from the rail end face 14 forth can be pushed onto the mounting rail 2 . It is also possible, for example the undercut area. On the Nutoberseite 12 in a vertically upward direction slidably form eg. Against a spring force so that at pushing back this form-locking inter-behind the top of the rail 5 Be Reich 12, the base member 3 in question also at one with term Place can be placed on the mounting rail 2 . After pushing back the undercut region 12 , the base element 3 is then positively fixed to the fastening rail 2 .

The illustrated base elements 3 each have identical dimensions and each serve to insert an individual electrical module 4 . Both the base elements 3 and the electrical modules 4 have cuboid housings 13 , 15 , de ren width and height are identical, so that the back 16 of an electrical module 4 is flush and congruent on the front 17 of a base element 3 in the inserted state. This gives the inserted electrical modules 4 a high stability, which is further increased by the fact that inserted electrical modules 4 are supported on adjacent base elements 3 with their adjoining side faces 18 . This is achieved in that adjacent base elements 3 are completely, ie gap-free, pushed together so that their side surfaces 19 , 21 touch.

This lateral contact between adjacent base elements 3 allows the formation of electrically conductive contacts between adjacent base elements 3 , each of which engaging plug connections 20 are actuated. For this purpose, several plug sockets 20 are provided in almost all base elements 3 on one side surface 19 , on the other hand, on the opposite side surface 21, however, complementary plug pins. In addition, there may also be a socket element for completing a row of sockets, which has 19 sockets 20 only on one side surface, on the opposite side surface 21, on the other hand, does not have any plug connections.

One socket 20 each is electrically conductively connected within the relevant socket housing 13 to the complementary plug pin of the same base 3 , so that a row of several base elements 3 is connected to form a corresponding number of conductive busbars within the base elements 3 , which are to be distributed for looping through the voltages, for three-phase current, for example, three phases L1 ... L3, a neutral conductor N and possibly a grounding conductor may also be used.

For supplying these voltages, a trained with the electrical's function of a main switch Elektromo can be connected to a base element 3, preferably to the first of the series in question, which has no lateral plug pins are inserted dul 4, comprises that connections, which at the top or Bottom 22 , 23 to be connected Ka bel are connected to the primary voltage supply. Due to its special position in the low-voltage distribution system in question, this feed-in electrical module can also be integrated with the associated base element 3 to form a structural unit, so that a plug connection can be saved here and the reliability of the circuit can thereby be increased.

In the area of the side bushings 20 , the relevant metallic contact surfaces are recessed with respect to the side surface 19 and are thus arranged such that they are safe to touch, or they are coverable by the bushings 20 , for example flaps which can be pivoted inward counter to Fe forces, so that the row of base elements can be closed final socket 3 , the sockets 20 are visible, but contact with the live conductor is excluded. Furthermore, the pins can be provided with lateral recesses, so that a locking of the individual base elements 3 with the aid of complementary locking elements in the area of the sockets 20 is possible.

In a similar form, the base elements 3 on their front sides 17 each have a row of sockets 24 which serve to insert the pins 25 of an electrical module 4 . The sockets 24 of the base elements 3 are preferably arranged one below the other, so that the housings 13 , 15 of the base elements 3 and the electrical modules 4 can be made comparatively narrow, so that a large number of electrical modules 4 along the fastening rail 2 can be placed side by side. Each socket 24 is conductively connected to a socket 20 on the side 19 of the relevant base 3 and possibly also with a plug pin arranged on the opposite side 21 , so that the voltages traversed across the row of sockets via the pins 25 on each the inserted electrical modules 4 are transmitted and there can be further divided according to the function of the relevant electrical module 4 ver.

In order to ensure protection against contact with those base elements 3 which are mounted in reserve and for the time being do not carry an electrical module 4 , the sockets 24 are provided with covers, for example inwardly pivotable 26 flaps 27 which are under the pressure 28 of the relevant pin 25 retreat 26 and the relevant socket released so that an electrical contact can be closed. So that an electrical module 4 used in this way, even with vibrations or other external influences, cannot accidentally loosen or even loosen the relevant base element 3 , the pins 25 are provided with all-round, groove-shaped depressions 29 , into which the electrical module 4 when inserted a resilient locking element of the respective socket 24 is able to intervene. This locking element is preferably formed at the same time as a metallic contact, so that the resilient contact pressure also ensures optimal contact in a further function.

The number of pins 25 of an electrical module 4 preferably corresponds to the number of sockets 24 of a base element 3 . However, there are also single-phase electrical modules 4 , in which, in addition to a plug pin for the neutral conductor N, only a white plug pin is necessary for a single phase L1 ... L3. Be at these electric modules, the other plug pins 25 are preferably omitted, and a phase L1 ... L3 zugeord designated plug pin 25 may in direction of the row of sockets 24 is formed that is vertically slidable or displaceable in order as desired in accordance with one of the concern to be brought to the phase L1 ... L3 assigned socket 24 . This makes it possible to connect such a single-phase electrical module 4 to the design of the low-voltage distribution system concerned in different phases L1 ... L3.

The secondary-side contacting of the electrical modules 4 takes place via wires 30 , which are connected to the contact elements 31 , which are preferably located on the upper side 22 , but also on the lower side 23 of the electrical module 4 . In order to improve the protection against contact, the contact elements 31 are arranged within a recess 32 of the housing 15 . The wires are preferably fixed by clamping using one or more screws 33 .

Due to the identical housing dimensions 15 aligned front sides 34 inserted electrical modules 4 can carry informative labels, further display elements such as lamps, but also setting elements such as potentiometers or switching elements such as actuating levers with magnetic triggering fuses.

In addition to the illustrated embodiment, where each socket element 3 is assigned only a single slot in the form of a row of sockets 24 , multiple socket elements can also be used, in which a larger number of slots for several electrical modules 4 are present. On the one hand, the installation effort can be further reduced, on the other hand, the mechanical stability of the arrangement is further improved and, due to the mechanical simplification, the cost is reduced to a minimum.

There is also the possibility of the outermost element to attach a cable to a row of sockets using a plug element close with which the voltage (s) to be distributed on ei ne further row of sockets can be transferred. To one of the To keep such wire connection short, this white tere row of bases can be added in reverse order. Base elements are particularly suitable for this purpose the side pins with the corresponding sockets are interchanged (inverted base). With symmetrical Structure of the base (symmetrical to a horizontal plane) this can also be achieved by assembling in an overturned form chen.

Claims (26)

1. System for the installation of electrical components (4) a low-voltage distribution system such as the main switches, automatic backup, FI-breaker, relay od. The like., With aneinan derreihbar constructed base elements (3) different for the insertion of electric components (4), wherein the electrical specific terminal by the plug connections ( 24 , 25 ) are closed, and the base elements ( 3 ) can preferably be fixed with an undercut connection ( 12 ) on a fastening rail ( 2 ), characterized in that the base elements ( 3 ) on both of them Sides ( 19 , 21 ) complementary Steckver connections ( 20 ) for electrical contact wear, each of which two opposite sides ( 19 , 21 ) to ordered contacts ( 20 ) of a base element ( 3 ) by means of egg nes across the base element ( 3 ) running conductor are short-circuited to the voltages to be distributed (phase (L1 ... L3), zero (N) and d / or grounding conductor) row by the base (3) hindurchzuschleifen, and each of said short-circuit conductor with an electrical connection, a plug-in module as (4) Electric component executed serving plug connection (24) is electrically conductively connected. 2. System according to claim 1, characterized in that the base-side contacts for the cross connections on one side ( 19 ) of a base element ( 3 ) as sockets ( 20 ) and on the opposite side ( 21 ) are designed as plug pins, the sockets -Contact surfaces are preferably designed to be pressed onto an inserted pin by means of spring force. 3. System according to claim 2, characterized in that the contact surfaces are touch-safe in the base housing ( 13 ) and / or can be covered by insulating, pivoting or sliding elements. 4. System according to any one of the preceding claims, characterized by a base element ( 3 ) which has connectors on only one side ( 19 ), which are preferably socket-shaped ( 20 ). 5. System according to any one of the preceding claims, characterized by a preferably designed as a main switch electrical module ( 4 ), which has connections for the voltages to be distributed and for feeding these voltages in the base element ( 3 ) to Sockelele element ( 3 ) looped through Busbars are used. 5. System according to claim 5, characterized in that the feed module ( 4 ) with the relevant base element ( 3 ) be integrated into a structural unit. 7. System according to any one of the preceding claims, characterized by preferably widened base elements with a plurality of socket sets ( 24 ) for a plurality of electrical modules ( 4 ). 8. System according to any one of the preceding claims, characterized by a base element with two connection options, in particular socket sets ( 24 ), each of which is conductively connected only to the plug connections ( 20 ) on a base side ( 19 , 21 ). 9. System according to any one of the preceding claims, characterized in that the undercuts ( 12 ) on the back ( 10 ) of the base elements ( 3 ) are at least partially displaceable in order to enable a central placement on a fastening rail ( 2 ). 10. System according to claim 9, characterized in that the lateral plug pins are moved into the housing ( 13 ) simultaneously with the displacement of a portion of the undercut ( 12 ). 11. System according to any one of the preceding claims, characterized in that the plug-in connections of the base ( 3 ) for inserting an electrical module ( 4 ) are designed as sockets ( 24 ). 12. System according to claim 11, characterized in that the base sockets ( 24 ) for the elec tromodule ( 4 ) are arranged in a contact-safe manner in the base housing ( 13 ) and / or in the case of removed electrical components ( 4 ) are covered by insulating elements. 13. System according to claim 12, characterized in that the insulating cover elements are designed as flaps ( 27 ) or slider, which preferably by spring elements in a closed position, when plugging an electrical module ( 4 ) of its pins ( 25 ) against it Side are moved ( 25 ). 14. System according to any one of claims 11 to 13, characterized in that in the base ( 3 ) with egg ner or more, preferably all electrical module sockets ( 24 ) an approximately radially movable to the plug-in locking element is provided, which is pressed against a pin ( 25 ) by spring pressure. 15. System according to any one of the preceding claims, characterized in that the plug connections of the electrical modules ( 4 ) as plug pins ( 25 ) are formed. 16. System according to claim 15, characterized in that the plug pins ( 25 ) of the electrical modules ( 4 ) have a tapered tip. 17. System according to claim 15 or 16, characterized in that a lateral recess ( 29 ) is arranged on one or more, preferably before on all pins ( 25 ) of an electrical module ( 4 ), which when inserting the electrical module ( 4 ) enables a locking connection. 16. System according to any one of the preceding claims, characterized in that the housing ( 15 ) of an electrical module ( 4 ) has the same width as a base ( 3 ). 19. System according to any one of the preceding claims, characterized in that the housing ( 15 ) of an electrical module ( 4 ) has an approximately cuboid shape. 20. System according to claim 19, characterized in that adjusting and / or actuating elements of the electrical modules ( 4 ) are arranged on the front side ( 34 ) thereof. 21. System according to claim 19 or 20, characterized in that the secondary-side connections ( 31 ) of the electrical modules ( 4 ) are arranged on the top ( 22 ) and / or bottom ( 23 ) thereof. 22. System according to any one of the preceding claims, characterized in that the secondary-side connections ( 31 ) are designed as screw terminals. 23. System according to any one of the preceding claims, characterized by single-phase electrical modules ( 4 ) which have a reduced number of plug pins ( 25 ). 24. System according to claim 23, characterized in that one or more of the plug pins ( 25 ) of a single-phase electrical module ( 4 ) are designed to be offset or displaceable in order to assign a variable to different phases (L1 ... L3) enable. 25. System according to claim 24, characterized in that a displaceable pin ( 25 ) with a rear base plate is received in a linear guide of the electrical module ( 4 ). 26. System according to claim 24 or 25, characterized in that a displaceable plug pin ( 25 ), in particular its rear base plate, is connected via a flexible line to the internal circuit of the relevant electrical module ( 4 ).