DE102020102491B4 - Linear current distributor arrangement with a tap arranged on a linear supply unit - Google Patents

Abstract

Linear current distributor arrangement (2) comprising a linear supply unit (1), wherein the linear supply unit (1) has a contacting area (12) with a plurality of chambers (14) for accommodating conductors (16) and a plurality of conductors (16) which are each arranged in a chamber (14), wherein at least some of the conductors (16) are arranged on a circular segment and a tap (18), comprising a number of contact elements (26) for contacting the conductors (16), the linear Supply unit (1) has receiving areas (22) and the tap (18) has holding elements (24) corresponding to the receiving areas (22), characterized in that the contact elements (26) are mounted so as to be rotatable about an axis in the longitudinal direction.

Description

The invention relates to a linear supply unit comprising a contacting area with a plurality of chambers for accommodating conductors and a plurality of conductors, each arranged in a chamber, and a linear current distributor arrangement comprising such a linear supply unit with a tap, comprising a number of contact elements for contacting the conductors.

Linear current distribution arrangements are used in particular for lighting systems in buildings, in order to lay cables for supplying devices with energy and/or signals in a cost-effective and visually appealing manner. Signals are understood to mean both the transmission of general signals, such as control signals, and the transmission of data, such as measurement or information data. The installation location of the devices can be chosen flexibly along a housing body of the power distribution arrangement and easily varied. The devices can thus be electrically conductively contacted with the conductors of a linear supply unit at a variably definable installation location using a connecting element. Such current distribution arrangements have the advantage that the devices are carried on the housing body both in an electrically contacting manner and also mechanically at the same time.

Linear power supply units, which are mounted in a housing body, are usually used in the linear current distribution arrangements for distributing or forwarding the energy or signals. These supply units can, for example, be in the form of current-carrying profiles, but also in the form of ribbon cables. The current-carrying profiles are formed from a base body that extends in the longitudinal direction and has a contacting area that has a number of chambers in which individual conductors are arranged. These current-carrying profiles are generally rigid and have a limited length due to the manufacturing process. For longer current distribution arrangements, such as those used in larger factory buildings or warehouses, for example, several current-carrying profiles are usually required, which are then connected to one another both mechanically and electrically via a connecting element. Depending on the length of the ribbon cable, connection elements can also be used when ribbon cables are used.

The terminals are usually contacted with the conductors of the linear supply units via a tap that includes a number of contact elements. These contact elements engage in the chambers and contact the corresponding conductors, as a result of which the signals or energy can be routed from the conductors to the end devices via the taps. The problem with this type of configuration, however, is that the taps are arranged in the closed power distribution arrangement in the operating state and a detected misalignment or misalignment, but also a desired different phase selection, is only possible by opening the power distribution arrangement by removing the terminal devices and replugging or realigning the taps. Furthermore, contacting problems can arise from the fact that the taps or the end devices in the form of lamps sag during operation due to gravity and the distance between the contact elements and the conductors thus increases, which means that contacting may no longer be possible.

Linear supply units with different arrangement geometries of the conductors are from the publications DE 19 58 525 A , DE 27 51 652 A1 , DE 10 2007 051 410 A1 , DE 101 14 715 A1 , EP 0 200 625 A1 and DE 696 14 319 T2 famous.

The object of the present invention is therefore to specify a linear supply unit and a linear current distributor arrangement that can be contacted particularly easily and reliably and incorrect arrangements of the taps are avoided or can be changed particularly easily.

The object is achieved according to the invention by the characterizing features of the independent claims.

The invention is based on the idea that clear and reliable contacting of the taps on the conductors can be achieved if the taps are not aligned on or opposite the housing body of the linear current distributor arrangement, as is often the case, but rather directly on the linear supply unit . As a result of this direct coupling between the tap and the linear supply unit, incorrect mating is avoided at the same time, since the tap is used in a predefined alignment and arrangement relative to the linear supply unit. Furthermore, a predefined distance between the tap and the conductors is also guaranteed, which is why contacting problems can be avoided. For the most compact design possible, the usual linear arrangement of the conductors in one plane or two planes aligned parallel to one another was abandoned and a linear supply unit was created, the conductors of which are at least partially on a circular segment, for example arranged in a semicircle. In an alternative configuration, the arrangement of the conductors in two planes that are not parallel to one another, for example in a triangular shape, is also conceivable.

The contact elements are arranged so that they can be moved in a targeted manner, in particular in such a way that they can be aligned in such a way that the conductor to be contacted can be freely selected or changed. This is easily possible in particular when the contact elements are mounted so as to be rotatable about the central axis of the circle segment when the conductors are arranged on a circle segment. This has the additional advantage that the distance between the contact elements and the conductors remains constant regardless of the alignment of the contact elements, so that good contact is always guaranteed.

The same applies to the arrangement of the conductors in two non-parallel planes. Here the same spacing of the contact elements from the conductors can be maintained if the contact elements can be displaced along a plane which is parallel to one of the two planes on which the conductors are arranged.

The displacement of the contact elements takes place along a correspondingly designed and shaped guide rail. A guide rail is also advantageous when rotating the contact elements. In this case, for example, the area in which the contact elements can be moved can be determined as a function of the system, so that the selection of conductors is limited, for example for safety reasons.

For a particularly simple contacting, it is advantageous with this arrangement of the conductors if the conductors are not deep in the chambers, but the contact surfaces of the conductors are formed in one plane with the surface of the contacting area, so that a planar, flat overall surface is created.

It is advantageous if the contact elements are displaced or rotated by a controllable motor, for example with the aid of a control element arranged outside the tap or outside the linear current distributor arrangement. This allows for misalignment correction or subsequent phase selection without the need to open up the linear current distributor assembly.

The advantages achieved with the invention are, in particular, that the direct, usually form-fitting coupling of the tap to the linear supply unit creates a self-aligning system in which faulty contacts or missing contacts due to a too large distance between the contact elements and the lines are avoided due to the system will. The geometric adaptation of the tap to the design of the contact area results in self-centering not only taking place in the plane of extension of the linear supply unit, but also perpendicular thereto. By arranging the conductors on a circular segment or in two non-parallel planes and plugging the tap onto this linear supply unit, a compact and self-aligned system could be created. In this case, further coding of the components can be dispensed with, since the tap provides unambiguous coding in just one predefined position and position solely through the geometric design and the coupling to the linear supply unit. Furthermore, this compact system enables the contact elements to be arranged centrally, which makes it possible to actively change the phase selection by moving or twisting the contact elements.

• 1 eine lineare Versorgungseinheit mit einem Abgriffgehäuse,
• 2 eine als Kreissegment ausgebildete lineare Versorgungseinheit mit Kontaktelementen in einer ersten Position,
• 3 eine als Kreissegment ausgebildete lineare Versorgungseinheit mit Kontaktelementen in einer zweiten Position,
• 4 eine dreiecksförmige Versorgungseinheit,
• 5 ein Ausschnitt einer dreiecksförmigen Versorgungseinheit mit Kontaktelementen in einer ersten Position,
• 6 ein Ausschnitt einer dreiecksförmigen Versorgungseinheit mit Kontaktelementen in einer zweiten Position.

The invention is explained in more detail below with reference to a drawing. show:

• 1 a linear supply unit with a tap housing,
• 2 a linear supply unit designed as a segment of a circle with contact elements in a first position,
• 3 a linear supply unit designed as a circular segment with contact elements in a second position,
• 4 a triangular supply unit,
• 5 a section of a triangular supply unit with contact elements in a first position,
• 6 a section of a triangular supply unit with contact elements in a second position.

The same features are provided with the same reference symbols in all figures.

The linear supply unit 1 in the embodiment according to 1 is arranged in a linear current distribution arrangement 2 . This linear current distributor arrangement 2 comprises a housing body 4 which has a base section 6 and two side wall sections 8 which each extend away from the opposite edge regions of the base section 6 and are essentially parallel to one another and perpendicular to the base section 6 . The housing body 4 is attached to the ceiling of a building and includes a holder for receiving a linear supply unit 1. A feeder, not shown, then conducts current and/or signals into the linear supply units 1.

The linear supply unit 1 is in 1 designed as a current-carrying profile and includes a base body 10, which is designed so that it can be inserted into the housing body 4 of the linear current distributor arrangement 2 and accommodated by the holder. Furthermore, the linear supply unit 1 or the base body 10 comprises a contacting area 12 with a number of chambers 14 arranged next to one another for accommodating conductors 16. The contacting area 12 is shown in the exemplary embodiment according to FIG 1 designed as a segment of a circle and enclosed in the base body 10 . Due to the formation of the contacting area 12 as a segment of a circle, the chambers 14 arranged there and in particular the conductors 16 are also arranged on such a circular arc. The conductors 16 are arranged in the chambers 14 in such a way that the contact surfaces of the conductors 16 lie on the surface of the contacting area 12 and a level, flat and planar surface is thus produced.

This basic body 10 of the linear supply unit 1 is shown in the exemplary embodiment 1 a tap 18 placed. The pick-off 18 includes a pick-off housing 20 which extends over the entire width of the base body 10 of the linear supply unit 1 . The base body 10 includes receiving areas 22 for receiving the pick-up housing 20. The pick-off housing 20 for this and the holding elements 24 corresponding to the holding areas 22. Both the holding areas 22 and the holding elements 24 are designed in such a way that the pick-off 18 is plugged onto the linear supply unit 1 can be and thus both can be fixed to each other. In the embodiment after 1 the holding elements 24 are designed in such a way that they preferably encompass the receiving regions 22 of the base body 10 and thus enable the tap 18 to be seated securely on the linear supply unit 1 . In general, however, other design variants are also conceivable.

The housing shape of the pick-off 18 is also adapted to the design of the contacting region 12, so that the circular-segment-like shape is also reflected here. At least one contact element 26 is arranged inside the pick-off housing 20 1 is covered by the front panel of the tap housing 20.

Such a contact element 26 is in the embodiment according to 2 shown. The embodiment after 2 corresponds to that 1 , except that the cross-section was chosen for better representation in such a way that the front panel of the pick-off housing 20 is not visible. The contact element 26 includes a number of connections 28 for the connection to the terminals, not shown, in particular lamps. Furthermore, the contact element 26 comprises at least one contact tongue 30 for contact with the conductors 16 of the linear supply unit. For this purpose, openings in the form of guide rails 32 , through which the contact tongues 30 pass, are provided in the bottom region of the tap housing 20 , which is designed like a segment of a circle. The guide rails 32 run along the circular arc of the bottom area of the pickup housing 20, which makes it possible to move the contact element 26 along the circular arc and thus to rotate it about the central axis of the circular arc. The guide rail 32 according to the embodiment 2 extends only over a portion of the circle segment, or in this specific case over three conductors 16, so that the contact element 26 can be displaced between these three conductors 16. Due to this selection of the length of the guide rail 32, it can be determined, depending on the system, between which conductors 16 or phases a contact element 26 can be moved. In the 3 is the contact element 26 from the 2 shown in a second position, which compared to the first position from the 2 is shifted by a conductor 16.

As in the embodiment according to the 3 can be clearly seen, 18 more guide rails 32 are provided for contacting the other conductors. If these conductors 18 are to be contacted, either the contact element 26 can be repositioned or a second contact element 26 can be used.

It is essential that the shape of the base element of the pick-off housing 20, in which the guide rails 32 are arranged, is adapted to the shape of the contacting area 12, so that the distance between the contact elements 26 and the contact surfaces of the conductors 16 is always constant, so that even if the Contact elements 26 no contacting problems occur.

An alternative embodiment of the contacting area 12 is in the 4 - 6 shown. In the embodiment after 4 the chambers 14 and thus also the conductors 16 are arranged in a stepped manner, so that the lateral conductors 16 are arranged on two planes E ₁ , E ₂ which are not arranged parallel to one another. In this embodiment too, the tap 18 (not shown) would be attached to the base body 10 of the linear supply unit 1 and the bottom area of the tap housing 20 with the guide rails 32 to the triangular configuration of the con clocking range 12 be adjusted. In contrast to the embodiment according to the 1 - 3 the conductors 16 are not arranged in the chambers here in such a way that they form a flat, even surface with the surface of the contacting area 12 . This means that the contact elements 26 must be plugged into the guide rails 32 when the phase changes and not, as is the case in the exemplary embodiment according to FIGS 1 - 3 the case can only be moved.

As the embodiment according to 5 and 6 However, as shown in FIG. The contact element 26 can then be displaced here along the guide rails 32, which are not shown and are adapted to the shape of the contacting area. the 5 shows again the contact element 26 in a first position, while the 6 shows the contact element in the second position, shifted thereto, in which another conductor is contacted.

Reference List

1

linear supply unit

2

linear power distribution array

4

case body

6

bottom section

8th

sidewall section

10

body

12

contacting area

14

chamber

16

ladder

18

tap

20

tap housing

22

recording area

24

holding element

26

contact element

28

connection

30

contact tongue

32

guide rail

E1

level

E2

level

Claims (5)

Linear current distributor arrangement (2) comprising a linear supply unit (1), wherein the linear supply unit (1) has a contacting area (12) with a plurality of chambers (14) for accommodating conductors (16) and a plurality of conductors (16) which are each arranged in a chamber (14), wherein at least some of the conductors (16) are arranged on a circular segment and a tap (18), comprising a number of contact elements (26) for contacting the conductors (16), wherein the linear supply unit (1) has receiving areas (22) and the tap (18) has retaining elements (24) corresponding to the receiving areas (22), characterized in that the contact elements (26) are mounted so as to be rotatable about an axis in the longitudinal direction. Linear power distribution assembly (2) after claim 1 , characterized in that the axis is the center axis of the circle segment. Linear current distribution arrangement (2) according to one of Claims 1 or 2 , characterized in that the tap (18) has at least one guide rail (32) for rotating the contact elements. Linear current distributor arrangement (2) comprising a linear supply unit (1), wherein the linear supply unit (1) has a contacting area (12) with a plurality of chambers (14) for accommodating conductors (16) and a plurality of conductors (16) which are each arranged in a chamber (14), with at least some of the conductors (16) being arranged in two non-parallel planes (E1, E2) and a tap (18) comprising a number of contact elements (26) for contacting the conductor (16), wherein the linear supply unit (1) has receiving areas (22) and the tap (18) has holding elements (24) corresponding to the receiving areas (22), characterized in that the contact elements (26) are arranged along a plane parallel to one of the two levels (E1, E2) on which some of the conductors (16) are arranged, and that the tap (18) has at least one guide rail (32) for moving the contact elements t. Linear current distribution arrangement (2) according to any one of the preceding claims, characterized in that the conductors (16) in such a way in the Kam mers (14) are arranged such that the contact surfaces of the conductors (14) lie in a plane with the surface of the contacting area (12).

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