AT409686B - BUSBAR ELEMENT, ADAPTER FIXED PART, ADAPTER TURNED PART AND SOCKET ADAPTER - Google Patents

Description

       

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   The invention relates to a busbar element, in particular for laying in living rooms, offices or the like. Or for installation in wall elements for living rooms, offices or the like, consisting of an essentially U-shaped profile, the side legs of which have fixing devices are provided, for example, for a cover of the busbar element, with conductor tracks comprising a neutral conductor, a grounding and a phase conductor running open parallel to the side legs at the bottom of the profile, the grounding preferably being arranged between the phase conductor and the neutral conductor and on An open holding profile runs parallel to the side legs at the bottom of the profile, furthermore an adapter fixed part therefor with a contact pin for each conductor track of the busbar element, an adapter turned part,

   in which the rear of the housing of the adapter rotating part is provided with one contact surface per contact surface of the adapter fixed part and the front of the housing of the adapter rotating part has a receptacle for conventional plugs.



   Up to now, electrical cables have been permanently installed in living rooms or offices, business premises and the like, and sockets have been attached at specified locations and in a specified orientation. In order to be able to set up and operate electrical devices at any location, the use of extension cables, distributors and the like is necessary, which is not visually appealing on the one hand and can also be dangerous because you can trip over the cables lying around , Plug connections can be unintentionally disconnected or electrical devices can be knocked over or torn down. It also often happens that angled plugs have to be used in unfavorable positions, in which larger cable loops are formed or through which the arrangement of several such plugs close together is no longer possible.



   Cable ducts or cable ducts are known in which separate cables can be routed together, but the sockets are also provided in fixed positions and cannot be arranged and easily changed according to changing needs of the user. From DE 36 32 414 A1, however, a power distribution rail is known in which two electrical conductors and a protective conductor u. a. are also arranged on the bottom of a beam with a substantially U-shaped cross section. It is also described to arrange the protective conductor between the electrical conductors. In the case of the power distribution rail described, however, undesirable deformations of the side legs of the support profile can lead to loosening or even detachment of the additional components attached to the ends of the side legs.



   Also in the conductor rail of EP 0 159 078 A1 with its conductors essentially at the bottom of a carrier profile, a plug adapter is attached as an additional component to the outer ends of the side legs of the carrier profile. Therefore, this construction also has the disadvantage just described that the deformation of the side legs can loosen or even detach the additional component.



   US Pat. No. 3,337,697 B1 relates to a busbar for trolleybuses which have completely different requirements than the busbars mentioned above for living rooms or the like. In addition, this busbar is designed to interact with a movable power take-off device and only has similarities in the arrangement of conductors on the bottom of the open support profile
The object of the present invention was therefore a system for supplying electrical energy in living rooms or the like, which is quick and easy to install and can be adapted and changed in accordance with the changing needs of the user, with particular attention being paid to the secure attachment of additional components shall be.



   This object is firstly achieved according to the invention in that the holding profile runs over the central conductor track and the side parts of the holding profile which protrude from the bottom of the profile have projecting strips which are oriented towards the other side part.



  With this busbar element, the current can not only be drawn off at any point along the busbar element, without cables having to be laid and adjusted in length and by changing the length of the busbar element or by stringing together several elements of this type along the entire space are made possible to provide power connections at any point, to change their position or to remove them again, but the inventive design of the

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 Holding profile allows the installation of additional parts such as connectors or at any point along the busbar element.

   Like. To carry out, whereby any deformations of the other parts of the element, in particular of its side legs, do not hinder the assembly of the additional parts or their loosening or even detachment from the conductor rail is avoided as far as possible. The busbar between the power connections is preferably covered in order to avoid contamination and also to prevent the endangerment of living beings in the living space. There is also the additional advantage that the earthing of the mounted additional part can be carried out in a simple manner via a conductive fastening element.



   In order to facilitate the installation of power connections, it is provided in a manner known per se that within the side legs of the profile forming the power rail and, according to the invention, outside the conductor tracks, one leg protruding from the bottom of the profile runs parallel to the side legs. The structures to which the power connections can be fastened are thus separate from the structures to which the cover can be fastened.



   The adapter fixed part, which is characterized according to the invention in that a conductive contact surface is provided per contact pin on the side of the housing of the adapter fixed part opposite the contact pins, and that a conductive, elastic element is provided between each contact pin and each contact surface also helps to achieve the object is interposed, which exerts a force directed away from the contact surface on the contact pin. This adapter fix part can be used to easily and functionally ensure the conductive connection between the busbar and the consumers connected to it, while compensating for any tolerances during manufacture and susceptible deformations when installing the busbar element.

   The elastic element can of course also be composed of several partial elements.



   In order to simplify the assembly of additional parts such as sockets or the like, it is advantageously provided in this adapter fixed part that a bushing for receiving a holding element, preferably arranged centrally, cooperating with the holding profile of the busbar element is provided.



   The secure attachment of the additional parts to be mounted on the adapter fixed part can be ensured in that, according to a further feature of the invention, at least one guide lug is provided on the side of the housing of the adapter fixed part having the contact surfaces, the or each guide lug preferably having a closed circular structure with one another results, which is preferably coaxial to the central axis between the contact surfaces. This ensures a precisely aligned attachment and conductive coupling of the additional parts, which is aligned with the contact surfaces of the adapter fixed part, whereby in the case of the circular design there is the possibility of securely coupling the additional part in any desired orientation.



   In order to enable any orientation of the plug with a simple assembly without additional internal lines and safe conductive coupling to the busbar, it can be provided according to a further feature of the invention that the contact surfaces are designed in a circular arc around the central axis of the adapter fixed part and preferably extend over at least a quarter of the circumference.



   According to a further feature of the invention, an adapter rotary part is provided for coupling to the adapter fixed part described above, which is characterized in that it ensures the optimally conductive contact with the adapter fixed part and the alignment that is also important for this purpose in every installation position on the rear of the housing of the adapter rotating part, at least one receptacle for any guide lugs of the adapter fixed part is provided, preferably coaxially, but radially outside the central axis of the adapter rotating part.



   If the adapter rotating part has a bushing for receiving a holding element holding the adapter fixed part and the adapter rotating part, preferably running along the central axis of the adapter rotating part, this simplifies the assembly of the components mentioned, advantageously only one connecting and holding element extending through all parts being necessary which, in a conductive version, also allows the grounding of the consumers connected to the adapter rotating part.



   The holding element is preferably held rotatably in the bushing present in the adapter rotating part, the protruding part protruding from the adapter rotating part

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 Section of the holding element through the bushing in the adapter fixed part extends into the interior of the holding profile of the busbar element. This guarantees the earthing in connection with the holding function and at the same time the simplest assembly.



   The simplicity of assembly and also the displacement or removal of the adapter parts mentioned at or from a specific position along the busbar can be further increased if the holding element has a head which is widened radially on two opposite sides. By simply turning the holding element, this can be brought into positions in which it can be inserted or removed from the projecting strips of the holding profile or in which the widened sections of the head reach behind these strips and thus fix the additional parts on the conductor rail.



   According to a further feature of the invention, in a special embodiment of the adapter rotating part, it is provided that the contact surfaces provided on the rear side of the housing of the adapter rotating part are formed in a circular arc around the central axis of the adapter rotating part and preferably extend at least over a quarter of the circumference. The contact surfaces are of course mounted fixed relative to the receptacle for the connector. As a result, any orientation of the plug can be achieved with simple installation without additional internal lines and safe conductive coupling to the busbar.



   In the following description, the invention will be explained in more detail with reference to the accompanying drawings of a preferred embodiment. 1a shows a cross section through a busbar element with cover in wall mounting and FIG. 1b is a plan view of this element, FIGS. 2a and 2b are a cross section and a plan view of a busbar element of a further embodiment for assembly with Wall cladding panels, FIGS. 3a and 3b show an advantageous embodiment for the connection of two conductor rail elements, FIGS. 4a and 4b show two axial sections through a complete plug adapter arrangement fixed to the conductor rail, FIGS. 4c and 4d are a top view to the plug adapter arrangement from the front and from the rear, d. H. the latter seen from the direction of the busbar, the Fig.

   5a, 5b and 5c are a plan view from the front, a cross section and a rear view of a line connecting element, while FIGS. 5d and 5e represent a connecting element for a junction box in top view and cross section, such a junction box is shown in FIG 6a and 6b in plan view and cross section and FIG. 6c is a plan view of a T-shaped connecting element for the busbar, a transition busbar element for bypassing uprights or the like. FIGS. 7a and 7b show in plan view and in cross section, Fig. 8 is a longitudinal section through an advantageous embodiment for the cover of the busbar, Fig. 9a to 9c shows a further embodiment of the busbar element for connection to existing sockets in plan view, in cross section at the location of the socket and a little to the side thereof and the Fig.

   9d is a cross section corresponding to FIG. 9c, but with an attached cover, and FIGS. 10a and 10b show a simple tool for mounting the plug adapter of FIGS. 3a to 3d on a busbar element.



   The busbar element S in the basic version (see FIGS. 1 a and 1 b) consists of an essentially U-shaped profile, preferably with side legs 2 adjoining a flat base 1 at right angles. The base 1 is preferably for mounting on walls W, walls or the like are extended on both sides to the outside by mounting lugs 1a. In these mounting lugs 1a, holes, slots 1b, predetermined breaking points or the like are provided at certain intervals, through which the busbar element S can be mounted on the wall W using, for example, screw-dowel arrangements D. The side legs 2 can also have further, in this embodiment, shorter assembly lugs 3 on their outside facing away from the wall W, which can essentially end with the plaster V.

   The profile is preferably made of a plastic material with good insulating properties. In order to provide additional parts to be assembled independently of any deformations of the side legs 2 and to not hinder their installation and removal, advantageously additional legs 4 are provided inside or in the side legs 2, parallel to these, starting from the bottom 1 of the profile which recordings can be provided for the additional parts or which can represent this recording itself. The area between the side legs 2 and the additional legs 4 can be a cable duct K

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 can be used for, for example, TV, data, telephone lines or the like.

   Elastic lips 5 are provided between side legs 2 and additional legs 4, in which strips 6 of a cover profile 7 engage and fix them to the busbar S.



  This cover profile 7 can be designed, for example, with predetermined breaking points or, as will be explained later in connection with FIG. 8, in sections lined up in order to adapt it to any length between the provided mounting points for additional components or to open openings for these additional components at these points create through which these additional components access the busbar S and / or can be attached to it
Between the additional legs 4 there are conductor tracks, preferably three conductor tracks 8, 9, 10, of which advantageously - as explained further below - the middle track 9 is used as grounding and the two outer tracks 8 and 10 are used as chamfer and as neutral conductor.

   In order to be able to fix additional components quickly and easily at any point, a holding profile is provided on the bottom 1 of the busbar element S parallel to the side legs 2 and the additional legs 4. This holding profile consists of two further side parts 11 starting from the bottom 1 with cantilevered strips 12 in the upper end region directed towards the respective other side part. A conductor track, preferably the middle track 9 for grounding, lies between the two side parts 11 of the holding profile.



   Another basic embodiment of the busbar element S according to the invention is shown in FIGS. 2a and 2b, this element being designed for installation with wall cladding panels P, for example plasterboard panels or the like. Instead of mounting flags 1a of the bottom 1, this closes with the side legs 2. On the other hand, the front assembly flags 3 are extended and come to rest on the cutouts of the plates P for the busbar S. Clamps K and tensioning screws R, which are behind the plates P and which are common in these plates P, are at certain intervals in them front mounting lugs 3 slots 3a, holes, predetermined breaking points or the like.



   Although the conductor rail element S can in principle be of any length and can be cut to any desired length, it is advantageous for rational production and storage to be carried out in certain predetermined lengths, for example in lengths of 1 m, 2 m and 4 m adjacent busbar elements can be held in a spatially constant position relative to one another by the assembly, but a connection via the system shown in FIGS. 3a and 3b is advantageous. In the outwardly facing surfaces of the side legs 2 there is provided a groove 2a extending in the longitudinal direction of the busbar, the side of which facing the bottom 1 of the busbar element S runs obliquely outwards from the bottom of the groove 2a and from the center of the groove 2a.

   The bottom of the groove 2a is thus wider than its opening, it forms a half-dovetail-shaped guide. A connecting element C encompasses the adjoining end sections of two busbar elements S, this connecting element C having an essentially rectangular profile with a base 36 and two side legs 37, which parts preferably lie entirely on the back of the base 1 and the side legs 2 of the busbar element S. Of course, the mounting lugs 1a at the connection points must be removable or omitted, a further area on the side, free of mounting lugs 1a, allowing the connecting element C to be moved laterally and thus a simpler connection and a simple subsequent release of the coupling.

   At the front ends of the side legs 37 of the connecting element C, hook-shaped sections 38 are formed which are complementary to the cross section of the groove 2a in the side legs 2 of the busbar element S and which form the connecting element C on the or each busbar element At most, keep it displaceable and prevent unintentional removal or falling. In FIG. 3a, an electrical connecting element E is shown, which will be explained in more detail in connection with FIGS. 5a to 5c.



   Between the additional legs 4, a plug adapter shown in Fig. 4a and 4b can be used, which for plugging and electrical connection with conventional plugs, i. H. is designed as a replacement for the usual sockets. The plug adapter consists of an adapter fixed part F to be connected to the busbar element S and a movable adapter rotating part B placed thereon, into which the conventional plug can be inserted.



  The adapter fixed part F has a preferably square or rectangular housing 13

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 insulating material, preferably again plastic, of which at least one of the outer dimensions corresponds exactly to the width between the legs 4. To produce conductive contact with the conductor tracks 8 and 10 of at least the chamfer and the neutral conductor, contact pins 14 are provided at a distance from one another which corresponds to the distance between these conductor tracks 8, 10.

   On the side of the housing 13 opposite the contact pins 14, as can be seen in FIG. 4d, there are contact surfaces 15, the conductive connection between the contact pins 14 and the contact surfaces 15 each having a conductive spring element, a conductive guide piece 16a with spring 16 or is produced in a similar manner, which exerts a force which pushes the contact pins 14 away from the contact surface 15 and thus in the direction of the conductor tracks 8, 10 out of the housing 13. For fastening the adapter fixed part F by means of an additional component (as will be explained further below), a bushing 17 is provided centrally in the housing 13, through which the additional component can be guided and to the holding profile 11 on the busbar S.

   Finally, 18 also designates a guide lug or an arrangement of guide lugs, which is preferably designed as a circular and coaxial strip running around the feedthrough 17 and a further component which is precisely aligned with the contact surfaces 15 and is rotated about the center telaxis of any orientation allowed.



   Such a component to be fitted is preferably the adapter rotary part B, the housing 19 of which, again made of insulating material, preferably plastic, is advantageously formed on the front side (see FIG. 4c) like a conventional socket and there with receptacles 20 for the contact pins of conventional plugs and with conductive contact elements 21 is provided. On the rear side of the housing 19, which faces the adapter fixed part F, contact surfaces 22 are provided for making contact and establishing electrical contact with the contact surfaces 15 of the fixed part F. The contact elements 21 are preferably screwed to the contact surfaces 22, but in any case are conductively connected.



   The contact surfaces 15 of the fixed part F are preferably designed in the form of a circular arc and extend over an angle of preferably approximately 90 coaxial to the central passage 17 for the holding and fixing element. This configuration of the contact surfaces 15 allows the adapter rotating part B in the embodiment shown to have two to be mounted on the busbar S by 90 rotated positions each, which permits corresponding positions of the plug to be inserted. In the case of a circular housing, any intermediate positions could also be adopted.

   The merging in any installation position precisely aligned to the contact surfaces 15 of the adapter fixed part F is provided by a strip 24 which runs coaxially around the central, preferably circular part of the adapter rotating part B, an annular receptacle 25 being formed between this strip 24 and the central part , When assembling the adapter rotary part B and the adapter fixed part F, the guide lug 18 of the adapter fixed part F comes to rest in this receptacle, which always remains in the same orientation to the busbar S regardless of the orientation of the adapter rotary part B.

   A snap connection between the flag 18 and, for example, the strip 24 can be provided for coupling the adapter rotating part B and the adapter fixed part F, with, for example, a circumferential projection 18a engaging in a circumferential groove 24a and in this way a rotation about the central axis, but not an axial pulling apart of adapter rotating part B and adapter fixed part F.



   As a component holding the adapter fixed part F and the adapter rotating part B and fixing these two parts to the busbar, the preferred embodiment of the holding element 26 can be seen as a bolt 17 or 23 extending through the bushings in the adapter fixed part F or adapter rotating part B. This holding element 26 has a head which is preferably provided with two laterally projecting sections 27 (see FIGS. 4a and 10a).

   In a rotational position of the holding element 26, these sections 27 engage behind the strips 12 on the side parts 11 of the holding profile on the bottom 1 of the busbar S and thus fix the components to be mounted thereon. The head of the holding element 26 preferably comes with the conductor track 9 for the Grounding in contact and can thus provide the grounding of the consumers supplied with electrical current via the socket of the adapter rotating part B. The second end of the holding element 26, which is advantageously designed as a screw head 28, can at the same time serve as an abutment for a spring element which exerts a force which pulls the holding element 26 out of the holding profile with suitable rotation. The screw head 28 is advantageously on the

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 Retaining element 26 itself screwed back on and suitably secured.

   Furthermore, the holding element 26 establishes the connection between the grounding contacts 29 in the adapter rotating part B and the grounding conductor 9 of the busbar S and is made of electrically conductive material for this purpose.



   Via the said connection, corner pieces can also be used, which are designed, for example, to run through corners of the room at a certain angle, preferably 90. At most, corner pieces with a variable angle, i.e. H. With a pivot axis running in the plane of the bottom 1 of the busbar element S and a movable conductive connection of the conductor tracks 8, 9 and 10 over this axis. Finally, long conductor rail elements S can also be designed to be angled.



   In addition to the mechanical connection of two adjacent busbar elements S, for example via the connecting element C, the conductive connection between these elements S must also be established, which can be achieved, for example, by means of plug connections or spring-loaded contact tabs. A further advantageous variant, which additionally increases the mechanical stability, is shown in FIGS. 5a to 5c. In this case, an electrical connecting element E is provided, which can be inserted between the legs 4 of the busbar elements S so as to be displaceable in the longitudinal direction. It has a handle 31 on the base body 30 for easier handling.

   In the longitudinal direction, three electrically conductive rods or plates 32 are mounted on the underside of the base body 30, which come into contact with the conductor tracks 8, 9 and 10 and have a cross-sectional shape that securely holds the structures of the side legs 4 and the holding profile 11 with displaceability combine lengthways. The ends of the rods 32 can be made narrower for easier penetration into the structures of the busbar elements S (see FIG. 5c).



   A similar electrical connecting element E '(FIGS. 5d, 5e) can be provided for connecting further electrical systems via conventional conductor wires. For this purpose, screw terminals 33 are provided on the base plate 30 in conductive connection with the rods or plates 32, in the openings of which the ends 34 of conductor wires can be clamped by means of clamping screws 35. The connection to the busbar S is the same as for the connecting element E of FIGS. 5a to 5c.



   Conventional electrical lines can also be coupled at any point on the busbar S via a junction box I according to FIGS. 6a and 6b. This junction box I has a housing 36, which is provided with two lateral extensions 36a in the form of the busbar elements S and can be connected to these, for example, via the connecting elements C and E described above. Via a preferably screw-in socket 37, the electrical conductors L to be coupled to the busbar S are guided into the housing 36 of the junction box I and their ends are fixed there in screw terminals 38, which screw terminals 38 are also connected to conductors L ', the other ends of which are connected to the electrical connecting elements E '.

   As shown in FIG. 6c, however, a further conductor rail can also branch off via a branch piece T, which can be prefabricated for any angle or rotatable and then the electrical connection of the branch piece can take place via the connecting elements E.
When using the busbar S according to the invention with wall cladding panels, it is usually necessary to bypass uprights or mounting strips L for the panels P. For this purpose, an intermediate piece Z is advantageously provided, as shown in FIGS. 7a and 7b. It has a central part 39 which is bulged in accordance with the dimensions of the post L, the conductive connection of the conductor tracks 8, 9 and 10 being produced via bent conductor strips 40 to the central part, which conductor strips are fastened by means of screws 41.

   In order to make the level difference between the middle piece 39 and the remaining intermediate piece Z visible, part of the upright L is shown broken away in FIG. 7b.



   As shown in FIG. 8 in a longitudinal section through the center of the cover 7 of the busbar S according to the invention, this cover 7 can consist of sections 7a and 7b secured and held together for assembly by an adhesive tape 47 running in the longitudinal direction, the longitudinal dimensions of which essentially correspond to those of the plug adapter. This means that the section 7a or 7b only has to be removed at the corresponding point at which a plug adapter is to be mounted and the plug adapter must be inserted in its place.

   In the case of one overlapping on the outside from the ends of the adjacent sections 7b

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 Section 7a, the adjacent sections 7b must be swung open or removed and then reinserted, but this is very easily possible due to the plug connection in the elastic lips 5 of the busbar element S. The adhesive strip 47 can be pulled off after the cover 7 is snapped onto the busbar S.



   A socket adapter, an exemplary embodiment of which is shown in FIGS. 9a to 9d, allows a conductor rail according to the invention to be connected to an already existing, conventional socket and in this way, on the one hand, to retrofit rooms that are already supplied conventionally, and to provide a more secure, elegant and aesthetic solution for the Obtain replacement of common distribution sockets with cable connection.

   For this purpose, the socket adapter A is provided with contact pins 42 which are arranged in accordance with the receptacles 43 of the socket ST and also the grounding contacts. Via preferably detachable connections, such as screw terminals 44, the contact pins 42 are connected via short connecting lines with contact elements, if necessary resiliently resting on the conductor tracks 8, 9, 10 of the elongated part 45 of the adapter A and also attached via preferably detachable connections, or directly with these conductor tracks of the busbar. Element S connected conductively. The adapter can, as shown in FIGS. 9c and 9d, be fixed on the wall by means of a screw-plug arrangement D next to the socket ST. A cover 46 at the points at which plug adapters are provided protects the electrically conductive parts against contact and damage.



   A turn handle M is advantageously provided for easier and secure mounting of the plug adapter of FIGS. 4a and 4b on the busbar S. This rotary handle M has a disk-shaped body 48 made of insulating material, which has a larger diameter than the rotary part B of the plug adapter, at least over part of its thickness.

   On the side of the body 48 facing the rotating part B, a screwdriver 49 is fastened, which engages with its tongue 50 into the slot 28 ', cross recess or other recess of the screw head 28 of the holding element 26 and also this holding element 26 when the body 48 rotates rotates to the same extent As a result of this rotation, the projecting sections 27 of the holding element 26 can be brought into or out of engagement with the holding strips 11 and the plug adapter can be fixed or loosened again without there being any danger for the fitter in contact with live parts get
CLAIMS:
1.

   Busbar element, in particular for laying in living rooms, offices or the like. Or for installation in wall elements for living rooms, offices or the like. Consisting of an essentially U-shaped profile, the side legs (2) of which have fixing devices for, for example, a Cover of the busbar element are provided, on the bottom (1) of the profile a neutral conductor (10), a ground (9) and a phase conductor (8) comprising conductor tracks (8,9, 10) parallel to the side legs (2 ) run open, whereby the earthing (9) is preferably arranged between the phase conductor (8) and the neutral conductor (10) and an open holding profile runs parallel to the side legs (2) on the bottom (1) of the profile, thereby characterized in that the holding profile runs above the central conductor track (9) and the side parts (11) protruding from the bottom of the profile

   of the holding profile have projecting ledges (12) directed towards the other side part.


    

Claims (1)

 2 busbar element according to claim 1, characterized in that in a known manner within the side legs (2) of the profile forming the busbar and outside the conductor tracks (8,9, 10) each projecting from the bottom of the profile Leg (4) runs parallel to the side legs (2).  3. Adapter fixed part for a busbar element according to one of claims 1 or 2, with a contact pin for each conductor track of the busbar element, characterized in that on the side of the housing (13) of the adapter fixed part opposite the contact pins (14) F) a conductive contact surface (15) is provided per contact pin and that between each contact pin (14) and each contact surface (15) a conductive, elastic element (16) is interposed, which one of the contact pin  <Desc / Clms Page number 8>   Contact surface exerts force directed away. 4. adapter part according to claim 3, characterized in that a bushing (17) for A holding element (26), preferably arranged centrally, cooperating with the holding profile of the busbar element (S) is provided. 5. Adapter fixed part according to claim 3 or 4, characterized in that at least one guide tab (18) is provided on the side of the housing (13) of the adapter fixed part (F) which has the contact surfaces (15), preferably the or each guide ne together results in a closed circular structure, which is preferably coaxial to the central axis between the contact surfaces (15) (Fig. 4d). 6. Adapter fixed part according to one of claims 3 to 5, characterized in that the contact surfaces (15) are formed in a circular arc around the central axis of the adapter fixed part (F) and preferably extend at least over a quarter of the circumference. 7. adapter rotating part for a busbar element according to one of claims 1 or 2 and an adapter fixed part according to one of claims 3 to 6, wherein the rear of the housing (19) of the adapter rotating part (B) with one contact surface (22) per contact surface (15 ) of Adapter fixed part (F) is provided and the front of the housing (19) of the adapter rotating part (B) has a receptacle for conventional plugs, characterized in that at least one on the rear of the housing (19) of the adapter rotating part (B) Receptacle (25) for possible guide lugs (18) of the adapter fixed part (F) is provided, preferably coaxially, but radially outside the central axis of the adapter rotating part (B) (Fig. 4b, 4d). 8. adapter rotating part according to claim 7, characterized in that the adapter rotating part (B) a bushing (23) for receiving a holding the adapter part (F) and the adapter rotating part (B) holding element (26), preferably along the central axis of the Adapter rotating part (B) running. 9. adapter rotating part according to claim 8, characterized in that the holding element (26) is rotatably held in the bushing (23) provided in the adapter rotating part (B), the section of the holding element (26) projecting from the rotating adapter part (B) through the bushing (17) in the adapter fix part (F) into the interior of the holding profile (11, 12) of the busbar element (S) is sufficient. 10. adapter rotating part according to claim 9, characterized in that the holding element (26) has a radially widened on two opposite sides (27) head. 11. adapter rotary part according to one of claims 7 to 10 for cooperation with a Fixed adapter part according to one of claims 3 to 6, characterized in that the contact surfaces (22) provided on the back of the housing (19) of the rotating adapter part (B) are formed in a circular arc around the central axis of the rotating adapter part (B) and are preferably at least over a quarter extend the circumference of the circle THEREFORE 11 SHEET DRAWINGS