EP3553898A1 - Current guiding profile and pickup connector - Google Patents

Abstract

The invention relates to a current-carrying profile (1) with a plurality of grooves (4a, 4b) which are arranged next to one another, extend in the longitudinal direction (L) of the current-carrying profile (1) and open on a profile plug-in side of the current-carrying profile (1), and with electrical ones Ladders (5) in the grooves (4a, 4b), a first type of grooves (4a) being deeper than a second type of grooves (4b). The deeper grooves (4a) of the first type have a larger groove width than the narrower ones Grooves (4b) of the second type.

Description

The invention relates to a current-carrying profile with a plurality of grooves which are arranged side by side, extend in the longitudinal direction of the current-carrying profile and open at a profile plug-in side of the current-carrying profile, and with electrical conductors in the grooves.

The invention further relates to a tapping connector for attachment to such a current-carrying profile and for contacting the electrical conductors of the current-carrying profile, wherein the tapping connector has a plurality of webs, which are arranged side by side, and electrical contact elements, each together with an associated web for immersion in a groove of the Power guide profiles are formed to electrically conductively contact an electrical conductor in the groove.

Such current-carrying profiles and associated tap connectors are used, for example, for wiring and for connecting lights.

DE 10 2008 014 731 A1 shows a connector with extending in a direction of insertion contact fingers that have electrical contact taps for corresponding mating male contacts of a mating connector. For a mismatch protection, the connector has a locking plate extending in the transverse direction and plug-in direction.

DE 10 2008 032 192 B3 also discloses such a connector in which the lock plate for the misfire protection is formed asymmetrically.

Proceeding from this, it is an object of the present invention to provide an improved current-carrying profile and an improved tap connector, which are simple and compact and provide a Fehlsteckschutz.

The object is achieved with the current-carrying profile with the features of claims 1 and 4 and with the tapping connector with the features of claims 10 and 13. Advantageous embodiments are described in the subclaims.

A mismatch protection is ensured by a current-carrying profile in that the deeper grooves of the first type have a larger groove width than the narrower grooves of the second type. In the corresponding tap connector, the webs of a higher first type seen in the direction of arrangement of the webs are wider than the webs of the relatively lower second type of webs.

When attaching the Abgriffsteckverbinders on the current guide profile, the higher webs first reach the level of Profilstecksteckseite. Because these higher lands are wider, they can not dip into the narrower grooves. When staggered or oblique placement of Abgriffsteckverbinders this ensures that the higher and wider webs can only dip into the matching wider grooves of the first kind. Only then is it possible that the lower webs ever come into contact with the current-carrying profile. They are then inevitably led into the associated narrower grooves of the current-carrying profile.

Due to the different groove widths of the grooves of the current-carrying profile and the corresponding configuration of the webs of Abgriffsteckverbinders with different web widths is thus ensured in a very simple design manner without additional parts a false plug protection in a very compact design.

The deeper grooves of the first type can be arranged alternately to the narrower grooves of the second type, so that alternate deeper and narrower grooves transverse to the longitudinal direction of the current-carrying profile side by side.

The groove arrangement of the current-carrying profile can be asymmetrical. The groove side wall of at least one groove can be wider than the opposite groove side wall of this groove. This asymmetry improves the mismatch protection.

It is also conceivable, however, that the mismatch protection is ensured solely by this asymmetry. Regardless of whether grooves of different groove width are provided or not, the current-carrying profile can thus be characterized only by such asymmetric groove arrangement.

The electrical conductors are preferably arranged on the groove bottom of the grooves. The groove bottom is accessible via the slot opening on the profile plug side of the current-carrying profile. The grooves are formed by the groove bottom, adjoining the groove bottom groove side walls, which are spaced from each other by the groove width, and the groove opening on the profile plug side, which is opposite to the groove bottom formed.

However, the electrical conductors can also be arranged on groove side walls of the grooves. It is quite conceivable that a groove has a single electrical conductor of a groove side wall or two electrical conductors on the mutually opposite groove side walls.

It is also conceivable a combination in which a plurality of electrical conductors are arranged in a groove, wherein an electrical conductor on the groove base and at least one further conductor are arranged on a groove side wall.

The arranged in the grooves electrical conductors extend in the above variants in the longitudinal direction of the current-carrying profile in the grooves.

A tap connector suitable for the current-carrying profile can be designed so that the wider webs of the first type and the narrower webs of the second type are arranged alternately next to one another.

A mismatch protection can also be provided by a tap connector in that the distance of a land from a side wall adjacent to a first side of the land is greater than the distance of that land from a side wall adjacent to the opposite second side of the land. In this way, the tap is asymmetrical.

The adjacent side wall of a web can be the side wall of a web arranged next to it or a guide wall of the tapping plug connector. Such a guide wall may be, for example, the outer wall of an insulating housing of Abgriffsteckverbinders, which laterally adjoins the power supply profile in the plugged state.

The electrical contact elements of the Abgriffsteckverbinders can protrude beyond the height of the respective associated web. The respectively associated web of an electrical contact element is that web which dips into the same groove as the associated electrical contact element.

The webs can be interrupted and receive an electrical contact element between them. It is also conceivable that an electrical contact element is fixed or movable built into a web.

The tapping connector may have conductor terminals for clamping electrical conductors and for connecting to at least one associated electrical clamping element. Thus, an electrical device can be easily connected to the Abgriffsteckverbinder to supply this with electrical power and / or coupled to a data line for data transmission. Such an electrical device may for example be a lamp. The tap connector can also be used for feeding electrical energy and / or data into the power supply profile.

Figur 1 -

Frontansicht auf ein Stromführungsprofil mit teilweise aufgestecktem Abgriffsteckverbinder;

Figur 2 -

perspektivische Teilschnittansicht eines Stromführungsprofils;

Figur 3 -

Frontansicht des Abgriffsteckverbinders aus Figur 1;

Figur 4 -

Frontansicht des Stromführungsprofils aus Figur 1 und 2;

Figur 5 -

Frontansicht des Stromführungsprofils mit vollständig aufgestecktem Abgriffsteckverbinder aus Figur 1;

Figur 6 -

Frontansicht des Stromführungsprofils mit in einer zweiten Fehlsteckposition querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 7 -

Frontansicht des Stromführungsprofils mit in einer dritten Fehlsteckposition querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 8 -

Rückansicht des Stromführungsprofils mit in der dritten Fehlsteckposition aus Figur 9 querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 9 -

Frontansicht des Stromführungsprofils mit in einer vierten Fehlsteckposition querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 10 -

Frontansicht des Stromführungsprofils mit in einer fünften Fehlsteckposition querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 11 -

Frontansicht des Stromführungsprofils mit in einer sechsten, verkippten Fehlsteckposition querversetzt aufgestecktem Abgriffsteckverbinder;

Figur 12 -

perspektivische Ansicht des Abgriffsteckverbinders mit Blick auf die Frontseite;

Figur 13 -

perspektivische Ansicht des Abgriffsteckverbinders mit Blick auf die Rückseite;

Figur 14 -

Draufsicht auf den Abgriffsteckverbinder.

The invention will be explained in more detail with reference to an embodiment with the accompanying drawings. Show it:

FIG. 1 -

Front view of a current-carrying profile with partially attached tap connector;

FIG. 2 -

perspective partial sectional view of a current-carrying profile;

FIG. 3 -

Front view of the tap connector off FIG. 1 ;

FIG. 4 -

Front view of the power supply profile FIG. 1 and 2 ;

FIG. 5 -

Front view of the current-carrying profile with fully inserted tap connector FIG. 1 ;

FIG. 6 -

Front view of the current-carrying profile with tapped plug-in connector placed transversely offset in a second misplacement position;

FIG. 7 -

Front view of the current-carrying profile with tapped plug-in connector mounted transversely offset in a third misplacement position;

FIG. 8 -

Rear view of the current guide profile with in the third mis-plug position FIG. 9 transversely offset attached tap connector;

FIG. 9

Front view of the current-carrying profile with tap connector plugged transversely into a fourth misplacement position;

FIG. 10 -

Front view of the current-carrying profile with tap-off plugged transversely offset in a fifth misplacement position;

FIG. 11

Front view of the current-carrying profile with tap-off plugged transversely offset in a sixth, tilted mispositioning position;

FIG. 12 -

perspective view of the tap connector facing the front;

FIG. 13

perspective view of the tapping connector looking at the back;

FIG. 14 -

Top view of the tap connector.

FIG. 1 shows a current-carrying profile 1 with a tap connector 2 partially plugged thereon. The current-carrying profile 1 is formed from a carrier element 3 made of an insulating material, for example from plastic. It has a plurality of juxtaposed grooves 4a, 4b, in which electrical conductors 5 are installed. In the illustrated embodiment, the electrical conductors 5 are located on the groove base 6 of the grooves 4a, 4b. For this purpose, the groove base 6 has a recess which is narrower than the groove width of the respective groove 4a, 4b and is adapted to the cross section of the male electrical conductor 5. The electrical conductor 5 is secured in the respective adjacent groove 4a, 4b by projections 7, which form a stop for the electrical conductors 5 and secure them from falling out.

The current-carrying profile 1 has at the two opposite outer edges locking tabs 8, with which the current-carrying profile 1 can be clamped in a mounting rail.

The tapping connector 2 corresponding to the current-carrying profile 1 has an insulating-material housing 9, into which electrical contact elements 10 are installed. The insulating housing 9 has a number of webs 11 which protrude from a common plane 12 of the insulating housing 9 parallel to each other in the same direction. The electrical contact elements 10 are each arranged in such a web 11 or in alignment with such an associated web 11 and protrude beyond the respective web 11 at least in the uncontacted state. The electrical contact elements 10 can exert a contact force on the adjacent electrical conductor 5 when the tapping connector 2 is correctly attached to the current guide profile 1.

It will be understood that the tap connector 2 has a number of first type lands 11a that are higher than a number of lands 11b of a second type. In the illustrated embodiment, the lower webs 11 b of the second type are also tapered at its free end, ie tapered. In the illustrated embodiment, the webs 11a of the first type are arranged alternately to the lower webs 11b of the second type, so that webs 11a of the first type and webs 11b of the second type alternate in a mounting direction transverse to the longitudinal direction of the corresponding current-carrying profile 1.

It can also be seen that the higher webs 11a of the first type are wider than the lower webs 11b of the second type.

The juxtaposed in the direction of arrangement electrical contact elements 10 are each at the same distance from each other in the direction of arrangement, i. E. Positioned transversely to the extension direction of the corresponding current-carrying profile 1. The electrical contact elements 10 associated with the webs 11a of the first type are arranged on a first higher common plane, and the electrical contact elements 10 associated with the lower webs 11b of the second type are arranged on a common second plane offset therefrom. In this way two levels of contacts are provided.

The deeper grooves 4a of the first type of current-carrying profile 1 are also arranged alternately to the less deep grooves 4b of the second type. The grooves 4a of the first kind also differ in the groove width from the grooves 4b of the second kind. The deeper grooves 4a of the first kind are wider than the grooves 4b of the second kind. The groove widths of the grooves 4a and 4b are of the first and second kind each adapted to the groove width of the associated webs 11a, 11b of the first and second type. This ensures that the wider and higher webs 11a of the first type can not dip into the narrower, less deep grooves 4b of the second type, but rather on the side walls of the current-carrying profile 1 or the front side of the webs remaining between these grooves 4a, 4b Stromführungsprofils 1 rest. In the illustrated embodiment, at least the side walls of the grooves 4a of the first type are tapered to form in this way an insertion funnel for the wider webs 11a.

It is also clear that the insulating housing 9 of the Abgriffsteckverbinders 2 on the opposite outer sides each have outer walls 13 which laterally adjoin the outer side walls 14 of the current-carrying profile 1 in the correctly plugged state. Thus, the tapping connector 2 is guided in the correctly plugged state on the current-carrying profile 1 and optionally fixed by an elasticity of the outer walls 13.

It can also be seen that the insulating housing 9 of the tapping connector 2 has conductor insertion openings 15 on the front for the insertion and clamping of electrical conductors 16. These electrical conductors 16 are routed to invisible conductor connection terminals in the interior of the tapping connector 2 in order there to come into electrically conductive contact with at least one associated electrical contact element 10.

Thus, the tap connector 2 can be used for connecting electrical devices or for supplying electrical energy and / or data.

It can also be seen that the cross section of the electrical conductors 5 of the current-carrying profile 1 is different. Thus, three electrical conductors 5 are provided on the right side with a larger cross section than the cross section of the arranged on the left side of the two remaining electrical conductors 5. The electrical conductors 5 with a larger cross section are preferably used for the transmission of electrical energy, while the two electrical conductors 5 are intended with a smaller cross section primarily for data transmission, for example. To form a data bus.

FIG. 2 shows a perspective partial sectional view of the current-carrying profile 1 from FIG. 1 , It can be seen that this extends in a longitudinal direction L. The deeper grooves 4a of the first type and the less deep grooves 4b of the second type are arranged alternately transversely to the longitudinal direction L side by side and extend parallel to each other. In the illustrated embodiment, the adjacent grooves 4a, 4b of the first and second types are separated from each other by a common side wall 17.

It is clear that the electrical conductors 5 inserted into the deeper grooves 4a of the first type define a common first plane and the electrical conductors 5 inserted into the less deep grooves 4b of the second type span a second second plane spaced from the first plane.

The grooves 4a, 4b of the first and second types are on the groove base with the inserted electrical conductors 5 opposite side, ie open on the mating side, so that a Abgriffsteckverbinder plugged onto this side and the webs 11a, 11b can be inserted with the associated electrical contact elements 10 in the respective groove 4a, 4b of the first and second type.

FIG. 3 shows a front view of the Abgriffsteckverbinders 2. It is clear that the group of equally spaced, alternately juxtaposed webs 11 a, 11 b of the first and second type are asymmetrically installed in the space between the outer walls 13. It can be seen that the outer right web 11b is placed at a distance A1 from the right outer wall 13, while this outer web 11b of the second type with a smaller distance A2 is followed by the higher and wider web 11a of the first kind. On the left side, the outer web 11b of the second kind adjoins the left outer wall 13 of the tapping connector 2 at a distance A2 smaller than the distance A1 on the right side.

Another asymmetry is also conceivable in that the left-hand distance A 2 to the left-hand outer wall 13 differs from the spacing between the adjacent webs 11 a, 11 b.

It is also clear that the electrical contact elements 10 at, behind or between the respective webs 11a of the first kind with the height H1 aufzus a first contact plane, which is higher than the contact plane of the electrical contact elements 10 of the lower webs 11b of the second type with the height H2 is (H1> H2). These electrical contact elements 10 of the narrower and lower webs 11b of the second type also form a common second contact plane.

The higher webs 11a of the first type are wider with the width B1 than the lower webs 11b of the second type with the width B2 (B1> B2).

FIG. 4 shows a front view of the current-carrying profile 1. Again, it can be seen that the inserted into the deeper grooves 4a of the first type electrical conductor 5 span a first contact plane E1. By contrast, the electrical conductors 5, which are inserted into the lower grooves 4b of the second type, span a second, second plane E2 lying parallel to the first plane E1.

It is also clear that the adjacent grooves 4a, 4b each have a common side wall and the grooves 4b of the second type are thus installed in a kind of webs which protrude from the first plane E1 in a common insertion direction parallel to each other. The side walls of these web-like structures are the groove side walls of the respective lower groove 4a of the first type.

FIG. 5 shows that a respective web 11a, 11b of the Abgriffsteckverbinders 2 in an associated groove 4a, 4b of the current-carrying profile 1 is immersed. In this case, the electrical contact elements 10 of the respective web 11a, 11b each touch an associated adjacent electrical conductor 5 in the groove 4a, 4b into which the respective web 11a, 11b dips.

The outer walls 13 of the Abgriffsteckverbinders 2 abut against the side walls 14 of the current-carrying profile 1, so that the Abgriffsteckverbinder 2 surrounds the current-carrying profile 1.

FIG. 6 shows a view of the current guide profile 1 with a transversely plugged in a second mis-insertion position plug-in connector 2. In this case, the left outer wall 13 now immersed in a wider groove 4a of the first type of the current-carrying profile 1 a. However, the higher webs 11a of the first type are due to the asymmetry of the Abgriffsteckverbinders 2 each on a side wall of a deeper groove 4a of the first kind, which simultaneously limits the adjacent lower groove 4b of the second kind. Thus, the electrical contact elements 10 of the tapping connector 2 are so far away from the electrical conductors 5, that an electrically conductive connection between an electrical conductor 5 and the electrical contact element 10 is reliably prevented.

FIG. 7 shows a Stromführungsprofil 1 with a plugged in a third mating position tapping connector 2. The tapping connector 2 is compared to the first and second mis-plug positions and the in FIG. 1 and 5 shown correct plug position rotated 180 °. Due to the asymmetrical arrangement of the alternately juxtaposed group of webs 11a, 11b in the space defined by the outer walls 13 space aligned the higher webs The same applies to the lower webs 11b of the second type and the corresponding lower grooves 4b of the second type Resting side wall defining a deeper groove 4a of the first kind and the adjacent lower groove 4b of the second kind. Again, an electrically conductive connection of the contact elements 10 with the electrical conductors 5 is reliably prevented.

FIG. 8 shows the current-carrying profile 1 with the tap connector 2 in the third mis-insertion position according to FIG. 8 from the other side. Again, the ensured by the asymmetry of the current-carrying profile 1 and the Abgriffsteckverbinders 2 offset becomes clear. It can be seen that the current-carrying profile 1 on the right side have a side wall 18 thicker with the dimension D1 than the other side walls 17 between the grooves 4a and 4b of the first and second types.

FIG. 9 shows the current-carrying profile 1 with a plug-in connector plugged in a fourth mis-insertion position 2. In this case, the left outer wall 13 of the Abgriffsteckverbinders 2 immersed in a wider groove 4a of the first kind. Here, too, are the higher webs 11a of the first type of Abgriffsteckverbinders 2 on the side walls 17 of the grooves 4a, 4b and prevent further mating of Abgriffsteckverbindern 2 and Stromführungsprofil 1. The electrical contact elements 10 can not be in electrically conductive contact with an electrical Head 5 of the current-carrying profile 1 occur.

FIG. 10 shows the combination of Stromführungsprofil 1 and tap connector 2 in the fifth mis-insertion position of the FIG. 10 other side of the tap connector 2 by this compared to FIG. 10 is attached to the also rotated by 180 ° current guide profile 1. This fifth misfire position is with the misfire position in FIG. 10 comparable to the difference that the tapping connector 2 compared to FIG. 10 offset to the left and the viewing direction is rotated by 180 °. In this mis-insertion position, the left outer wall 13 completely immersed in the deeper groove 4a of the first kind. The higher webs 11a of the first type of Abgriffsteckverbinders 2 are arranged correctly in alignment with the deeper grooves 4a of the first type of the current-carrying profile 1 and partially dive into this one. Another mating is prevented by the compared to the higher webs 11a even higher outer wall 13, which rests on the groove bottom of the deeper groove 4a. Again, an electrically conductive connection of the electrical contact elements 10, each with an electrical conductor 5 of the current-carrying profile 1 sicherverhindert.

FIG. 11 shows the current guide profile 1 with a tilted thereto plugged-tap connector 2. The tapping connector 2 is additionally rotated by 180 ° and thus also aligned in a misfiring position to the current-carrying profile 1. It is clear that the left, wider side wall 18 of the current-carrying profile 1 rests on the outer wall 13 of the Abgriffsteckverbinders 2 by the asymmetry of the current-carrying profile 1 and the Abgriffsteckverbinders 2. It also can not be shifted to the right in the direction of view, as this is prevented by the right outer wall 13 and the immersion of sidewalls 17 of the lower grooves 4b of the first kind in the space between two higher webs 11a of the first kind.

FIG. 12 shows a perspective view of the Abgriffsteckverbinders 2. It can be seen that the higher webs 11a of the first type are formed of a plurality of posts that span a web direction and extending in a common extension direction parallel to each other. Between two posts, a holding element 19 is arranged, in each of which an electrical contact element 10 is installed.

The lower webs 11b of the second type, however, have an opening through which an electrical contact element 10 protrudes.

By using retaining elements 19 which are installed in the alignment between two posts, the tapping connector 2 can optionally be equipped with electrical contact elements 10. In the holding elements 19 are then also, if necessary, conductor connection terminals for clamping introduced into the conductor insertion opening 15 electrical conductor 16 installed.

It can also be seen that the outer walls 13 do not have a constant thickness over the length of the tapping connector 2, but rather have depressions. These are optional.

It can also be seen that the tap connector 2 has foot elements 21 on the side opposite the electrical contact elements 10, which are also optional.

FIG. 13 shows the perspective view of the tapping connector 2 from FIG. 13 from the back. Here you can refer to the above.

It is clear that a number of successive posts each form a higher web 11a of the first kind.

FIG. 14 shows a plan view of the tapping connector 2 from Figures 13 and 14 , It is clear that for each web 11a, 11b of the first and second type each an electrical contact element 10 is provided, which is arranged in alignment with a respective web 11a, 11b of the first and second type and possibly in this web 11a, 11b is integrated.

Claims (16)

Current supply profile (1) with - Several grooves (4a, 4b), which are arranged side by side, extending in the longitudinal direction (L) of the current-carrying profile (1) and open at a profile plug-side of the current-carrying profile (1), and with - electrical conductors (5) in the grooves (4a, 4b), wherein a first type of grooves (4a) is deeper than a second type of grooves (4b),
characterized in that
the deeper grooves (4a) of the first type have a larger groove width than the narrower grooves (4b) of the second kind. Power guide profile (1) according to claim 1, characterized in that the lower grooves (4a) of the first type and the narrower grooves (4b) of the second type are arranged alternately side by side. Current-carrying profile (1) according to one of the preceding claims, characterized in that the groove arrangement of the current-carrying profile (1) is asymmetrical, wherein a groove side wall of at least one groove (4a, 4b) is wider than the opposite groove side wall of this groove (4a, 4b). Current supply profile (1) with - Several grooves (4a, 4b), which are arranged side by side, extending in the longitudinal direction (L) of the current-carrying profile (1) and open at a profile plug-side of the current-carrying profile (1), and with - electrical conductors (5) in the grooves (4a, 4b), characterized in that
the groove arrangement of the current-carrying profile (1) is asymmetrical, wherein a groove side wall of at least one groove (4a, 4b) is wider than the opposite groove side wall of this groove (4a, 4b). Power guide profile (1) according to claim 4, characterized in that a first type of grooves (4a) is deeper than a second type of grooves (4b). Current guide profile (1) according to claim 5, characterized in that the deeper grooves (4a) of the first type have a larger groove width than the narrower grooves (4b) of the second type. Power guide profile (1) according to claim 6, characterized in that the lower grooves (4a) of the first type and the narrower grooves (4b) of the second type are arranged alternately side by side. Current-carrying profile (1) according to one of the preceding claims, characterized in that the electrical conductors (5) are arranged on the groove base (6) of the grooves (4a, 4b). Conductor profile (1) according to one of claims 1 to 7, characterized in that the electrical conductors (5) are arranged on groove sidewalls of the grooves (4a, 4b). Tap-off connector (2) for plugging onto the current-carrying profile (1) according to one of the preceding claims and for contacting the electrical conductors (5) of the current-carrying profile (1), wherein the tap-off connector (2) has a plurality of webs (11, 11a, 11b) are arranged side by side, and electrical contact elements (10) which are each formed together with an associated web (11, 11a, 11b) for immersion in a groove (4a, 4b) of the current-carrying profile (1) to an electrical conductor (5) in the groove (4a, 4b) to make electrical contact, wherein a first type of webs (11a) is higher than a second type of webs (11b),
characterized in that
the higher first type of webs (11a) seen in the direction of arrangement of the webs (11, 11a, 11b) is wider than the second type of webs (11b). Tap connector (2) according to claim 10, characterized in that the wider webs (11a) of the first type and the narrower webs (11b) of the second type are arranged alternately side by side. Tap connector (2) according to claim 10 or 11, characterized in that the distance (A1, A2) of a web (11, 11a, 11b) of a on a first side of the web (11, 11a, 11b) opposite side wall is greater than that Distance (A1, A2) of this web (11, 11a, 11b) of a on the opposite second side of the web (11, 11a, 11b) opposite side wall. Tap-off connector (2) for plugging onto the current-carrying profile (1) according to one of claims 1 to 9 and for contacting the electrical conductors (5) of the current-carrying profile (1), wherein the tap-off connector (2) has a plurality of webs (11, 11a, 11b) which are arranged side by side, and electrical contact elements (10), which are each formed together with an associated web (11, 11a, 11b) for immersion in a groove (4a, 4b) of the current-carrying profile (1) to an electrical conductor ( 5) in the groove (4a, 4b) to make electrical contact,
characterized in that
the distance (A1, A2) of a web (11, 11a, 11b) from a side wall adjacent to a first side of the web (11, 11a, 11b) is greater than the distance (A1, A2) of this web (11, 11a, 11b ) of a on the opposite second side of the web (11, 11 a, 11 b) adjacent side wall. Tap connector (2) according to claim 12 or 13, characterized in that the adjacent side wall of a web (11, 11a, 11b) is the side wall of an adjacently arranged web (11, 11a, 11b) or a guide wall of the tapping connector (2). Tap connector (2) according to one of claims 10 to 14, characterized in that the electrical contact elements (10) protrude beyond the height of the respective associated web (11, 11a, 11b). Tap connector (2) according to any one of claims 10 to 15, characterized in that the tapping connector (2) has conductor terminals for clamping electrical conductors (5) and for connecting to at least one associated electrical contact element (10).

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