EP2980932B1 - Feed-in strip - Google Patents

Description

The invention relates to a feed bar for feeding current phases of a low-voltage network into a busbar system or for tapping current phases from a busbar system.

In the EP 2 367 192 A1 a switching device is disclosed. This has a first switching device in strip design for separating the three conductors and a second switching device in strip design for disconnecting the neutral conductor. In this case, first and second fuse contacts for receiving three NH fuse-links are mounted in a strip-shaped housing of the first switching device, wherein a first and a second fuse contact recording a fuse link is used, and the first fuse contacts are connected to rigid conductors, enforce the passages in the housing , For electrically and mechanically connecting the conductors with three busbars of the conductor, and the second fuse contacts are connected by means of conductors arranged in the region of an end face of the housing terminals.

Furthermore, in the EP 1 045 414 A1 discloses a fuse switch disconnector. The fuse switch-disconnector is essentially formed by a strip bottom part and a top part. To safeguard three phases, three NH fuses are provided. The two contact blades of the respective NH fuse can be used in contact elements having slots for receiving the contact blades. Each pair of contact elements is secured by means of a contact protection. He has two hood-shaped cover elements with slot and arranged between the covers base plate.

From the DE 20 2010 003375 U1 is a fuse strip for receiving two NH fuse-links known, these fuse links are those for a DC voltage of 1200 V. The fuse strip has a substantially over the length of the fuse strip extending housing. The housing has six receptacles, which are arranged one behind the other in the longitudinal direction of the housing in this. The fuse strip is used to record a fuse contact. By means of screws, fuse contacts and the flat rails assigned to them are screwed with receptacles.

In conventional busbar systems, mainly power terminals have been used to feed current phases of a low voltage network into the busbar system. On the one hand, this has the disadvantage that the assembly effort for connecting the low-voltage network to the busbar system is relatively high and that faulty connections can also occur. In addition, the use of conventional terminals does not provide safe contact protection, so that additional protection against contact must be taken.

It is therefore an object of the present invention to provide a feed rail for feeding current phases of a low-voltage network into a busbar system with which the electrical connection between the low-voltage network and the busbar system in a simple manner and safely produced.

This object is achieved by a feed bar with the features specified in claim 1.

The invention accordingly provides a feed bar for feeding current phases of a low-voltage network into a busbar system or tapping current phases of the busbar system with an elongated body which is transversely mounted on a plurality of parallel busbars mountable and includes contact rails, which in the assembled state of the feed bar, the busbars to Feeding or tapping the current phases carried on the bus bars touch directly or via an intermediate piece, wherein the contact rails are respectively connected to corresponding terminal rails directly or via corresponding bridge poles, wherein the connecting rails have on one end side of the elongated body a connection for electrical connection to the low voltage network.

The feed bar offers the advantage that the power loss dropping across it is low due to the direct connection between the busbar system and the low-voltage grid.

In the case of the feed bar according to the invention, alternatively, the contact rails are connected in each case via corresponding pole bridges with associated connection bars.

In a possible embodiment of the feed rail according to the invention, the connection of the contact rails to the bus bars is alternatively via an intermediate piece, such as a comb contact. In a possible embodiment of the feed bar according to the invention, the contact rails and connecting rails and, if present, also the pole bridges covered by contact protection hoods.

This offers the advantage that a user can not touch the live or live rails, so that the safety for the user is increased.

In a further possible embodiment of the feed bar according to the invention, the contact protection hoods are formed by a plastic part.

As a result, the replacement of the contact protection hoods is simplified or accelerated.

In an alternative embodiment of the feed bar according to the invention, the contact protection hoods are formed by a plurality of separate plastic parts.

This embodiment offers the advantage that a user can independently inspect the areas of the feed bar intended for the different power phases by removing the associated contact protection hood.

In a further possible embodiment of the feed bar according to the invention, the elongated main body of the feed bar on releasable connecting elements for mechanically connecting the shock protection hoods with the elongated body.

In another possible embodiment of the feed bar according to the invention, the pole bridges each have an opening in the middle for mounting the feed bar on the busbar system.

This offers the advantage of a particularly simple installation of the feed bar on the busbar system, since the accessibility of the screws or nuts for making the contact with a tool is given

In a further possible embodiment of the feed bar according to the invention, the contact rails, the connecting rails and the pole bridges consist of an electrically conductive material with low electrical power loss.

In a further possible embodiment of the feed bar according to the invention, the connections for the low-voltage grid located on the front side of the elongated main body each have terminal lugs.

In a further possible embodiment of the feed bar according to the invention, the elongated main body of the feed bar is shaped such that it has longitudinally extending separate receiving channels for the connection bars of the different current phases used in the main body.

In one possible embodiment of the feed bar according to the invention, this has three contact rails for three current phases of the busbar system, which are connected directly or via three pole bridges with three associated connection bars.

In a further possible embodiment of the feed bar according to the invention, the feed bar can be mounted transversely on the parallel bus bars, wherein the end face of the elongated main body with the connecting rails for the electrical connection to the low voltage network points down.

In an alternative embodiment of the feed rail according to the invention, the feed bar is mounted transversely on the parallel busbars, wherein the end face of the elongated base body with the terminals for the electrical connection to the low voltage network by 180 ° turned upwards.

In a further possible embodiment of the feed bar according to the invention, the terminals for electrical connection to the low-voltage network each have at least one mounting option, in particular stud bolts or nut for cable lugs.

In a further possible embodiment of the feed bar according to the invention, the terminal lugs of the terminals each have a terminal for electrical connection to a round or segmental conductor or a terminal for electrical connection to a flat conductor.

In a further possible embodiment of the feed bar according to the invention, the electrical current fed in via the feed bar has a high rated current of more than 1000 amperes.

In a further possible embodiment of the feed bar according to the invention, the elongate main body of the feed bar consists of an electrically insulating plastic part.

In a further possible embodiment of the feed bar according to the invention, the contact rails have holes or semicircular or slot-shaped indentations for attachment to the respective busbar of the busbar system.

In a further possible embodiment of the feed bar according to the invention, a support bracket for supporting a contact protection cover plate of a control cabinet is attached or integrated on one or both end faces of the elongated base body of the feed bar. This angle can also be attached or integrated laterally or on the contact protection hoods.

In the following, possible embodiments of the feed bar according to the invention will be explained in more detail with reference to the attached figures.

Fig. 1

eine perspektivische Ansicht auf ein Ausführungsbeispiel einer erfindungsgemäßen Einspeiseleiste;

Fig. 2

eine Ansicht von unten auf die Erfindungsgemäße Einspeiseleiste inkl. Berührungsschutzhauben (sichtbar sind die Berührungsschienen für die Sammelschienenkontaktierung)

Fig. 3

eine weitere perspektivische Ansicht auf ein Ausführungsbeispiel der erfindungsgemäßen Einspeiseleiste mit abgenommenen Berührungsschutzhauben zur Darstellung der darin enthaltenen Polbrücken;

Fig. 4

eine Detailansicht auf eine der in Fig. 3 dargestellten Polbrücken;

Fig. 5

eine Darstellung zur Verdeutlichung der Montage der erfindungsgemäßen Einspeiseleiste auf ein Stromsammelschienensystem;

Fig. 6

eine weitere perspektivische Ansicht von unten zur Darstellung eines Ausführungsbeispiels der erfindungsgemäßen Einspeiseleiste;

Fig. 7

eine perspektivische Ansicht der Einspeiseleiste von oben mit abgenommenen Berührungsschutzhauben;

Fig. 8

eine Detailansicht zur Erläuterung der Montage der erfindungsgemäßen Einspeiseleiste auf den Sammelschienen;

Fig. 9

eine Detailansicht zur Darstellung einer Anschlussvariante der erfindungsgemäßen Einspeiseleiste;

Fig. 10

eine Detailansicht zur Darstellung der in Fig. 9 dargestellten Anschluss Variante der erfindungsgemäßen Einspeiseleiste mit montierten Kabelschuhen;

Fig. 11

eine Detailansicht zur Darstellung einer weiteren Anschlussvariante der erfindungsgemäßen Einspeiseleiste;

Fig. 12

eine Detailansicht zur Darstellung einer weiteren Anschlussvariante der erfindungsgemäßen Einspeiseleiste;

Fig. 13

eine Detailansicht zur Darstellung einer weiteren Anschlussvariante der erfindungsgemäßen Einspeiseleiste;

Fig. 14

eine Detailansicht zur Darstellung einer weiteren Anschlussvariante der erfindungsgemäßen Einspeiseleiste;

Fig. 15

eine Ansicht einer Anordnung mit einer aus Einspeiseleisten bestehenden Doppeleinspeiseleiste;

Fig. 16

eine Ansicht auf eine Ausführungsvariante der erfindungsgemäßen Einspeiseleiste mit Abstützwinkel.

Fig. 17

eine Detailansicht zur Erläuterung einer Montagevariante der erfindungsgemäßen Einspeiseleiste.

Show it:

Fig. 1

a perspective view of an embodiment of a feed bar according to the invention;

Fig. 2

a view from below of the feed rail according to the invention including contact protection hoods (the contact rails for the busbar contact are visible)

Fig. 3

a further perspective view of an embodiment of the feed rail according to the invention with removed shock protection hoods for displaying the Polbrücken contained therein;

Fig. 4

a detailed view of one of the in Fig. 3 illustrated pole bridges;

Fig. 5

a representation to illustrate the assembly of the feed bar according to the invention on a busbar system;

Fig. 6

a further perspective view from below to illustrate an embodiment of the feed bar according to the invention;

Fig. 7

a perspective view of the feed bar from above with removed contact guards;

Fig. 8

a detailed view for explaining the mounting of the feed rail according to the invention on the busbars;

Fig. 9

a detailed view illustrating a connection variant of the feed bar according to the invention;

Fig. 10

a detailed view for the representation of in Fig. 9 illustrated connection variant of the feed bar according to the invention with mounted cable lugs;

Fig. 11

a detailed view illustrating a further connection variant of the feed bar according to the invention;

Fig. 12

a detailed view illustrating a further connection variant of the feed bar according to the invention;

Fig. 13

a detailed view illustrating a further connection variant of the feed bar according to the invention;

Fig. 14

a detailed view illustrating a further connection variant of the feed bar according to the invention;

Fig. 15

a view of an arrangement with a feed rail consisting of double feed bar;

Fig. 16

a view of a variant of the feed rail according to the invention with support bracket.

Fig. 17

a detailed view for explaining a mounting variant of the feed bar according to the invention.

In the Fig. 1 Feed rail 1 shown in perspective serves to feed in current phases of a low-voltage network into a busbar system or to tap current phases from the busbar system. In the exemplary embodiment illustrated, the feed bar 1 has an elongated main body 2, which can be mounted transversely on a plurality of parallel busbars of the busbar system. The main body 2 contains contact rails 5-i, which in the installed state of the feed bar 1, contact the busbars for feeding or tapping the current phases carried on the busbars. The contact can also be made via an intermediate contact 26 (eg comb contact), as in Fig. 17 shown. In this case, the contact rails 5-i are each directly connected to associated connection rails 11-i, which at one end face of the elongate base body 2 have a connection have for electrical connection to the low voltage network. The connection can be made in a possible embodiment by screwing, welding, soldering or the like. The feeding of the current phases in the busbar system can be done for example by means of a 100 mm wide feed bar 1. In one possible embodiment variant, a main body of a NH fuse-load-disconnect strip can be used as main body 2. Thus, a width dimension of 100 mm for a three-phase feed of three current phases L1, L2, L3 can be realized. The various current phases L1, L2, L3 are covered by contact protection covers 3-1, 3-2, 3-3. These contact protection hoods may consist of one or more parts plastic parts. The contact protection hoods 3-i can be symmetrical or asymmetrical. In one possible embodiment, the contact protection hoods 3-i are latched in the base body 2 and can only be removed with a tool, in particular a screwdriver. In one possible embodiment of the feed bar 1 according to the invention, the contact rails are each connected via a corresponding pole bridge with associated connection bars. In this case, the pole bridges are preferably each covered by a contact protection hood 3-i. The elongated main body 2 of the feed bar 1 has releasable connecting elements, in particular latching elements, for mechanically connecting the contact protection hoods 3-i to the elongate main body 2. Alternatively, the contact protection hoods 3-i can have latching elements.

At the in Fig. 1 illustrated embodiment, the feed bar is used for feeding or tapping of three current phases L1, L2, L3, wherein for each current phase L1, L2, L3 on the front side of the elongate base body 2 an associated electrical connection 4-1, 4-2, 4-3 is provided. The contact protection hoods 3-i can be formed by an integral plastic part or by several separate plastic parts. The contact protection hoods 3-i are flat and can be removed after loosening by means of a tool by hand to inspect the underlying arrangement.
Alternatively, the contact protection hoods can also be designed so that they form a support surface or support edge for the cover system of the respective control cabinet.

Fig. 2 shows the in Fig. 1 illustrated embodiment of the feed bar 1 from below in the busbar contact area. One recognizes in Fig. 2 three contact rails 5-1, 5-2, 5-3, which contact in the mounted state of the feed bar 1, the busbars of the busbar system for feeding or tapping the guided on the busbar current phases. One recognizes in Fig. 2 further latching elements 8-1, 8-2, 8-3 for locking the contact protection covers 3-1, 3-2, 3-3 in the main body 2. As in Fig. 2 can recognize, have the lateral contact rails 5-1, 5-3 indentations and the centrally arranged contact rail 5-2 a hole 9 for positioning on the busbars.

Fig. 3 shows a variant of embodiment of the feed bar 1 according to the invention, in which the contact bars 5-1, 5-2, 5-3 respectively via corresponding pole bridges 10-1, 10-2, 10-3 with the associated connection bars 11-1, 11-2, 11-3 are connected. The connection can be made in a possible embodiment by screwing, welding, soldering or the like. The connection between the contact rails 5-i and the associated connection rails 11-i is preferably insoluble. Since the connections are insoluble and a customer has to screw the feed bar 1 on the busbar system, in the middle of the pole bridges 10-1, 10-2, 10-3 each have a corresponding mounting hole 12-1, 12-2, 12-3 is provided , as in detail also in Fig. 4 shown. In one possible embodiment, the user or customer has the opportunity to fix the feed bar 1 by means of a hexagonal screw 13 and a clamping plate 14 on the busbar system, as in Fig. 5 shown. Alternatively, an assembly by means of a clamp is possible. With this clamp, including comb contact, the feed bar 1 is compatible with the contact-protected current busbar system. In the in the Figures 3 . 4 . 5 illustrated embodiment of the feed bar 1 according to the invention, the connection between the contact rails 5-i and the associated connection or outlet rails 11-i by means of bridge poles 10-i.
In an alternative embodiment, there is a direct connection between the contact rails 5-i and the connecting rails 11-i. This variant is in the FIGS. 6 . 7 . 8th shown. Fig. 6 shows the three access rails 5-1, 5-2, 5-3 for contacting the busbar of the busbar system. Fig. 7 shows the in Fig. 6 shown feed rail 1 rotated in the longitudinal axis. It can be seen that the contact rails 5-i are connected directly to the connection bars or outgoing rails 11-i. In this embodiment of the feed bar 1, the user or the customer, the screwing of the feed bar 1 is simplified to the busbar system, as in Fig. 8 shown. Fig. 8 shows a hex nut 13 with associated clamping plate 14 for screwing the feed bar 1 through a hole 15 of the second contact rail 5-2.

The connecting rails or outlet rails used in the interior of the main body 2 of the feed bar 1 may consist of several parts which are interconnected. So it is also possible to bend the connection or outlet rails of a metal part. The feed bar 1 according to the invention can also be used as a departure bar for tapping current phases of the busbar system. In a possible embodiment of the feed bar according to the invention, these terminals 4-1, 4-2, 4-3 in the form of terminal lugs, as in Fig. 9 shown. To ensure a connection flexibility for the customers in this area, different connection variants are possible, as in the Figures 10 . 11 . 12 . 13 . 14 shown.

As in Fig. 10 16, cable lugs 17 can be screwed onto the connecting lugs 4-i by means of hexagon screws 16. For example, 300 mm ² cable lugs 17 can be connected twice. Fig. 11 shows how the feed bar 1 can be operated with aluminum terminals 18. Thus, various round or segmental conductor 19 can be connected. In a further embodiment, flat conductor 20 can be fastened by means of clamps 21 up to a width of, for example, 80 mm. The screwing of flat conductor, for example by means of hexagonal screw is also possible. In addition, in one embodiment, as in Fig. 13 shown, a universal conductor terminal 22 are mounted on the terminal lugs of the feed bar 1. This makes it possible for a user to use conductors with different cable cross-sections. In a possible embodiment, as in Fig. 14 represented, at the connecting straps a V-direct connection terminal 23 may be provided. This variant is special suitable for aluminum conductors. Fig. 14 shows such a V-shaped V-direct connection terminal 23rd

The feed bar 1 according to the invention can be mounted transversely on the parallel busbars. In this case, the front side of the elongated main body 2 with the connections for the electrical connection to the low-voltage network can show a possible installation variant down. Alternatively, the feed bar can also be rotated by 180 ° also mounted transversely on the parallel busbars, the end face in this mounting variant with the connections for the electrical connection to the low-voltage network points upwards.

Fig. 15 shows a further embodiment, which is a double feed bar with a width of 200 mm. In the Fig. 15 shown double feed bar 24 comprises two integrated in a body feed bars 1A, 1B. It is also possible to use two separate bodies as in a simple feed bar. In the double bar, the terminals 4-i may be connected to each other. By the in Fig. 15 shown double feed bar 24 higher currents can be performed as by a simple feed bar 1. In a possible embodiment, the fed via the feed bar 1 electric current has a high current amplitude of more than 1000 amps. The contact rails, pole bridges and outgoing rails are designed accordingly. By the in Fig. 15 represented double feed bar 24 even higher currents can be performed. At the in Fig. 15 illustrated embodiment, the terminal straps of the double feed bar 24 may be connected to each other with a metal part. A stringing of additional feed strips is also possible. At further Embodiment variants can further feed strips 1 are integrated in a body to further increase the allowable currents.

Fig. 16 shows a feed bar 1, which can be installed in combination with a NH fuse-load disconnector. Here, a support bracket 25 is provided on the front side of the main body above. By means of this additional part, the customer or user can continue to use a cover plate for contact protection in a control cabinet.

The main body 2 of the feed bar 1 is preferably made of a lightweight refractory plastic, which is electrically insulating. The elongate base body 2 of the feed bar 1 is preferably shaped such that it has longitudinally extending separate receiving channels for the connection bars 11-i of the different current phases L used in the base body. The contact rails 5-i, pole bridges 10-i and connecting rails 11-i are preferably made of an electrically conductive metal with low power loss, such as copper. About the contact rails can be mounted in a possible embodiment, an electrical converter. Several separate feed rails 1 can be coupled together in one possible embodiment to increase the feed-in current. The tap of the busbars can be done by means of a Klemmkontaktierung or by means of a Schraubkontaktierung. The contact of the busbars by the contact rails 5-i can directly as in Fig. 8 represented, or indirectly via an intermediate piece 26, as in Fig. 17 shown, done.

Claims (17)

1. Feed-in strip (1) for supplying current phases (L1, L2, L3) of a low-voltage network into a busbar system or for tapping off current phases (L1, L2, L3) from the busbar system with an elongated main body (2) which can be mounted transversely on a plurality of busbars arranged in parallel and contains contact rails (5-1, 5-2, 5-3) which, in the mounted state of the feed-in strip (1), make contact with the busbars for the purpose of supplying or tapping off the current phases (L1, L2, L3) carried on the busbars directly or via an intermediate piece (26),
   wherein the contact rails (5-1, 5-2, 5-3) are each connected to associated connecting rails (11-1, 11-2, 11-3) directly or via corresponding jumpers (10-1, 10-2, 10-3), wherein the connecting rails (11-1, 11-2, 11-3) have a terminal for electrical connection to the low-voltage network on an end face of the elongated main body (2).
2. Feed-in strip according to claim 1,
   wherein the busbars for supplying or tapping off the current phases (L1, L2, L3) carried on the busbars are in contact via an intermediate piece such as a comb-shaped contact.
3. Feed-in strip according to claim 1 or 2,
   wherein the contact rails (5-1, 5-2, 5-3) and/or the jumpers (10-1, 10-2, 10-3) are each covered by shock hazard protection covers (3-1, 3-2, 3-3).
4. Feed-in strip according to claim 3,
   wherein the shock hazard protection covers (3-1, 3-2, 3-3) are provided by means of a plastic component or a plurality of plastic components.
5. Feed-in strip according to claim 3 or 4,
   wherein the elongated main body (2) of the feed-in strip (1) has detachable connecting elements for the mechanical connection of the shock hazard protection covers to the elongated main body.
6. Feed-in strip according to any one of the preceding claims 1 to 5,
   wherein the jumpers (10-1, 10-2, 10-3) each exhibit a central opening (12-1, 12-2, 12-3) for mounting the feed-in strip (1) on the busbar system.
7. Feed-in strip according to any one of the preceding claims 1 to 6,
   wherein the contact rails (5-1, 5-2, 5-3), the connecting rails (11-1, 11-2, 11-3) and the jumpers (10-1, 10-2, 10-3) consist of an electrically conductive material with low electrical power loss.
8. Feed-in strip according to any one of the preceding claims 1 to 7,
   wherein the terminals (4-1, 4-2, 4-3) located on the end face of the elongated main body (2) each exhibit connecting lugs for the low-voltage network.
9. Feed-in strip according to any one of the preceding claims 1 to 8,
   wherein the elongated main body (2) of the feed-in strip (1) is shaped such that it exhibits separate receiving channels aligned in the longitudinal direction for the connecting rails (11-1, 11-2, 11-3) of the different current phases (L1, L2, L3) inserted into the main body (2) .
10. Feed-in strip according to any one of the preceding claims 1 to 9,
    wherein the feed-in strip (1) exhibits three contact rails (5-1, 5-2, 5-3) for three current phases (L1, L2, L3) of the busbar system which are connected directly or via three jumpers (10-1, 10-2, 10-3) to three associated connecting rails (11-1, 11-2, 11-3).
11. Feed-in strip according to claim 10, wherein the feed-in strip (1) can be mounted transversely on the busbars which are arranged in parallel, wherein the end face of the elongated main body (2) with the terminals for the electrical connection to the low-voltage network faces downwards, or is rotated through 180° also transversely to the busbars which are arranged in parallel,
    wherein the end face of the elongated main body (2) faces upwards with the terminals for the electrical connection to the low-voltage network.
12. Feed-in strip according to any one of the preceding claims 8 to 11,
    wherein the terminals (4-1, 4-2, 4-3) for electrical connection to the low-voltage network are each provided for at least one cable lug (17) which can be attached to the connecting lug of the respective terminal by screwing means.
13. Feed-in strip according to any one of the preceding claims 8 to 11,
    wherein the connecting lugs of the connections (4-1, 4-2, 4-3) each exhibit a terminal connection for the electrical connection to a round or segment conductor or a terminal connection for electrical connection to a ribbon conductor.
14. Feed-in strip according to any one of the preceding claims 1 to 13,
    wherein the electrical current supplied via the feed-in strip (1) exhibits a high current amplitude of more than 1000 ampere.
15. Feed-in strip according to any one of the preceding claims 1 to 14,
    wherein the elongated main body (2) of the feed-in strip (1) consists of an electrically isolating plastic component.
16. Feed-in strip according to any one of the preceding claims 1 to 15,
    wherein the contact rails (5-1, 5-2, 5-3) exhibit holes or semi-circular notches for fixing to the respective busbar of the busbar system.
17. Feed-in strip according to any one of the preceding claims 1 to 16,
    wherein on at least one face of the elongated main body (2) or of the shock hazard protection cover (3-i) of the feed-in strip (1) bracing brackets are provided for supporting (25) a shock hazard protection cover plate of a switchgear cubicle.

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