EP1764871A1 - Connection system for realising of branchings to continuous conductors - Google Patents

Abstract

Connection system for the realization of branches on a plurality of continuous electrical conductors (10), in particular a stripped cable in sections, with a bottom plate (1) and two or more directly on the bottom plate - or arranged on the bottom plate or attachable swing frame shafts (16) - pivotally mounted connection discs (2), each having a disc-like base body (3) made of insulating plastic, each having at least one or more insulation piercing contact (s) in the corner regions of the base body (3) and at least one or more Have branch terminal (s) (5) for at least one or more branching conductors, wherein the pivot areas of the adjacent in the mounting direction adjacent terminal discs (2) are formed offset from each other.

Description

The invention relates to a connection system for the realization of branches on a plurality of continuous electrical conductors.

Such a connection system is from the DE 297 08 222 U1 known. The connection system shown in this document serves as the connection system according to the invention for the realization of branches on a plurality of continuous conductors, without having to cut through the continuous conductor. For this purpose, a plurality of groove-like receptacles is formed on a base plate, in which a flat cable or a plurality of electrical conductors can be inserted parallel to each other. Then, a shell is placed to fieren the ladder or the flat cable. In this preassembled unit, which is provided with partitions, then clamp-like body are snapped in a pivoting movement, which are each provided with an insulation-penetrating screw, which is connected via a busbar with two tension spring terminals for connecting branching conductor. In this way, two branches can be realized on each conductor, without having to cut through the continuous conductor.

It is also known to arrange connection discs on a shaft rotatably mounted on a bottom plate. This configuration has not been proven because the conductors introduce laterally are so that the arrangement is not suitable for mounting on already installed continuous cables.

The invention therefore relies on the generic state of the art and wants to simplify this in terms of their structural design. In this case, a compact design and good handling should be realized.

The solution to this problem is the object of the invention.

The invention solves this problem by the subject matter of claim 1.

Constructively, the arrangement over the prior art is further simplified, since the invention uses for wiring tool-free connectable IDC contacts, especially fork contacts. It realizes despite the use of the IDC contacts with the conditional on their design - especially in the configuration as fork contacts - greater width a very narrow-building arrangement of connection disks, which also allows in a simple way, both the continuous conductor and the branching conductors (at least when using direct plug contacts) tool-free easy to contact.

For example, the continuous conductors may include the continuous conductors of a flat cable or other cable - e.g. a round cable - whose cable sheath has been removed in the area of the connection system, whereby the continuous conductors in this sheathed area are inserted into the receptacles of the base plate. For contacting then only the connection discs are set up, to pivot and then insert the conductor ends of the branch conductors. In this way, a branch can also be quickly retrofitted to an already installed cable.

It is also advantageous that, in any case, the IDC contacts of adjacent connection disks are relatively far apart in the selected staggered arrangement which significantly reduces adverse effects such as the occurrence of unwanted creepage currents.

An advantageous development, which can also be regarded as an independent invention, is specified in claim 2, whose object is characterized by a particularly simple handling with a particularly good insulation of the individual conductors from each other.

Advantageous embodiments are specified in the subclaims.

Fig. 1 a

eine perspektivische Ansicht eines ersten erfindungsgemäßen Anschluss-Systems mit abgenommener Seitenwand an der ersten Anschluss-Scheibe;

Fig. 1b-e

weitere Ansichten der Anordnung aus Fig. 1, welche das Beschalten des Anschluss-Systems in mehreren Schritten veranschaulichen;

Fig. 2

das Anschluss-System aus Fig. 1 in einer Seitenansicht;

Fig. 3

das Anschluss-System aus Fig. 1 und 2 in einer Draufsicht;

Fig. 4a

eine perspektivische Ansicht eines zweiten erfindungsgemäßen An-schluss-Systems;

Fig. 4b-e

weitere Ansichten der Anordnung aus Fig. 4, welche das Beschalten des Anschluss-Systems in mehreren Schritten veranschaulichen;

Fig. 5

das Anschluss-System aus Fig. 4 in einer Seitenansicht; und

Fig. 6

das Anschluss-System aus Fig. 5 und 5 in einer Draufsicht.

The invention will be described in more detail below with reference to the drawing with reference to exemplary embodiments. It shows:

Fig. 1 a

a perspective view of a first connection system according to the invention with removed side wall on the first connection disc;

Fig. 1b-e

further views of the arrangement of Figure 1, which illustrate the connection of the connection system in several steps.

Fig. 2

the connection system of Figure 1 in a side view.

Fig. 3

the connection system of Figures 1 and 2 in a plan view.

Fig. 4a

a perspective view of a second system according to the invention Anschluss system;

Fig. 4b-e

further views of the arrangement of Figure 4, which illustrate the connection of the connection system in several steps.

Fig. 5

the connection system of Figure 4 in a side view. and

Fig. 6

the connection system of Fig. 5 and 5 in a plan view.

Fig. 1 shows a connection system with a bottom plate 1 and thereto pivotally mounted connection plates 2, each having a disc-like base body 3 made of insulating plastic, which is T-shaped in plan view.

In each of the base body 3, there are in each case an insulation-penetrating first connection 4 and at least one or a plurality of branch connections, which are conductively connected thereto 5 for connecting at least one branching conductor (not shown here) arranged.

The first terminal 4 is formed as insulation piercing contact - here as a fork contact - to which a busbar section 6 connects, to which here two branch connections 5 are arranged. This branch connections 5 can in principle be formed in any connection technique (IDC, screw, spring, etc.). Preference is given to using tool-free directly connectable compression spring contacts (push-in), for which insertion openings 7 are arranged on the upper side of the main body 3.

The pivoting portions 8 of the terminal disks 2 are respectively in the lower -. turned to the bottom plate - corner areas 9. The two branch connections 5 are arranged side by side of the fork contact 4 side by side.

In order to be able to contact the conductors 10 to be contacted with insulation 10a and wire (s) 10b with the insulation-penetrating fork contacts 4 as easily as possible without tools, these have some special features.

These include according to a variant of the pivot radius r at the location of the fork contact 4 adapted cutting geometry in the manner of a circular arc with the radius r. In addition, an arrangement of the fork contacts is realized close to the pivot region 8, so that when depressing the base body 3 at the opposite end of the pivot axis of the connection plate 2 advantageously a large leverage or translation acts.

The pivoting regions 8 consist here in each case of a formed on the bottom plate, rounded hook portion 11 which cooperates with a correspondingly formed, also rounded hook portion 12 on the main bodies 3 of the connection plates 2 such that the two hook portions form a kind of sliding pivot bearing. On a continuous, pin-like axis of rotation, which determines the connection discs on the body, so that the insertion of the continuous Head is impossible, it can be advantageously dispensed with as in the generic state of the art.

FIGS. 1b-e illustrate that the base bodies can be provided with covers 15 on one or both sides, which are clipped onto the side walls in order to insulate the base bodies in which the connections are open at the sides.

Rather, it is possible to first insert the continuous conductors to be contacted into the receptacles 13 formed next to each other in the bottom plate (FIG. 1b, FIG. 1c) and then to place the connection disks 2 (FIG. 1d). This leads to a continuous preassembled axis of rotation on the bottom plate to a simplified handling and in the first place to be able to use the connection system also on continuous conductors.

Then, the bodies are pivoted in opposite directions to the conductor (Figure 1d), with the fork contacts 4 penetrating the conductor insulation and making contact with the line conductor (s) (Figure 1e).

In order to prevent that the width of the connection plates 2 in the direction of arrangement is relatively large by the use of the fork contacts 4, the pivot areas 8 of the connection plates 2 from connection plate 2 to connection plate - offset from one another - alternately in the two arranged in the contacted state to the bottom plate 1 facing corner regions 9a, 9b; and preferably in such a way that the pivoting regions 8a of each second connection disk 2 in the one - here left - lower corner portion 9a of the connection disks 2 and the pivoting portions 8b of the intermediate connection disks 2 in the opposite lower - right corner - 9b the connection disks 2 are arranged, such that in each case adjacent connection disks 2 are to be pivoted for connecting and disconnecting in the opposite direction of pivoting.

This is possible, for example, by rotating the connection disks by 180 °.

The two branch connections 5 of adjacent connection disks 2 are then in the connected state again essentially side by side.

In the area of the fork contacts 4, the connection disks 2 can be made somewhat wider by the above-described measure of the offset of the pivot bearing areas than in the remaining area for connection of the branching conductors 10, whereby the above-mentioned T-shape of the connection disks is realized. This is illustrated by the plan views of FIGS. 3 and 6. This results in an extremely small overall width. The use of the piercing screw of the prior art which can be actuated using a screwdriver can be dispensed with.

The connection plates 2 can be pivoted individually or as a group to the base plate 1, resulting in a single or a group circuit. It is also conceivable a kind of block structure, in which a plurality of the connection plates 2 are combined in one piece to form a higher-order pivotable unit (not shown here). This would be a kind of double comb-like construction realized with interlocking combs, which would offer the opportunity to connect each of several of the continuous ladder at a time.

The recordings may also be provided with latching projections 14 for latching the continuous conductors in order to simplify the arrangement of the conductors and their contacting.

A support web 19 serves to support the connection disks 2 on the bottom plate 1.

The embodiment of FIGS. 4 to 6 differs from that of FIGS. 1 to 3 essentially in that on the bottom plate 1, a plurality of housing-like pivot frame shafts 16 is arranged or attachable, each one at least on the of the bottom plate. 1 facing away from the side open, preferably T-shaped shaft having a narrower portion 20 and a slightly wider portion 21, wherein in the wider portion 21, the base body 3 pivotally are arranged (not visible here). It is conceivable to provide the swiveling frame shafts with contours on the inside which correspond to the hook sections 11 on the base plate and to form the connection plates 2 in the manner of FIG.

As can be seen in FIGS. 4 a, b and c, in the connection device of FIGS. 4 to 6, first the conductors 13 are inserted into the mutually parallel receptacles 13 of the base plate. Then the swing frame shafts - preferably vertically - placed with the pivoted here basic bodies 3 from above on the bottom plate and then moved parallel to the bottom plate 1 on the same, with hook-like portions 22, 23 on the mutually facing sides of the pivot frame shafts 16 and the bottom plate interlock , which secure the swing frame shafts to the bottom plate 1.

The swing frame shafts 16 allow a particularly good insulation of the connection plates 2 from each other and they offer the further advantage that they can be provided with locking means 17 (eg recesses, see Fig. 5), with the corresponding locking means 18 on the connection plates cooperate in contact position to additionally fix the connection plates 2 in the open - unconnected - position, which simplifies the wiring and is particularly advantageous when used in harsh environments.

The selected T-shape of the swing frame shafts 16 again provides the advantage of a particularly narrow structure when the swing frame shafts are rotated by 180 ° and offset from each other on the bottom plate 1 are arranged such that each of the narrow portions 21 of the swing frame shafts 16 in the connected state ( Fig. 6) are directly adjacent to each other. The swing frame shafts 16 could also be arranged directly next to each other on the base plate 1 and thereby have a rectangular basic shape. The structure would then not quite as narrow as in the illustrated embodiment of FIGS. 4 to 6.

It should also be mentioned that the entire arrangements of FIGS. 1 to 6 can in turn be arranged in a superimposed over-housing. It is also conceivable to use them with appropriate design of the floor panels with a corresponding attachment directly for mounting eg in the control cabinet. In addition, cross connections and / or markings or the like can be realized, for example, on the connection disks. It is also possible to replace the direct plug connections by other connections in other connection technology - eg IDC, Zugfeder- or Schraubanschlusstechnik - and / or to provide the connection plates with electrical components (again not shown here).

reference numeral

baseplate

1

Connecting disks

2

body

3

connection

4

branch terminals

5

Busbar section

6

insertion

7

swivel ranges

8th

corner

9

ladder

10

insulation

10a

Vein

10b

hook portions

11, 12

Recordings

13

latching projections

14

covers

15

Swing frame slots

16

latching means

17, 18

supporting web

19

sections

20.21

hook-like sections

22, 23

radius

r

Claims (21)

Connection system for the realization of branches at a plurality of continuous electrical conductors (10), in particular a stripped cable in sections, with a. a bottom plate (1) and two or more directly on the bottom plate - or arranged on the bottom plate or attachable swing frame shafts (16) - pivotally mounted connection discs (2), b. each having a disc-like base body (3) made of insulating plastic, each having at least one or more insulation piercing contact (s) in the corner regions of the base body (3) and at least one or more branch connection (s) (5) for at least one or have several branching conductors, c. wherein the pivoting areas of the adjoining in the mounting direction terminal discs (2) are formed offset from each other. Connection system for the realization of branches at a plurality of continuous electrical conductors (10), in particular a stripped cable in sections, with a. a floor slab (1) and two or more swivel frame shafts (16) which can be placed directly on the floor slab and in which connection slices (2) are pivotably arranged, b. each having a disc-like base body (3) made of insulating plastic, each having an insulation piercing contact for contacting each one of the continuous conductors (10) and at least one or more branch terminals (5) for at least one or more branching conductors. Connection system according to claim 1 or 2, characterized in that the pivot frame shafts (16) have a T-shape with a narrower portion (20) and a wider portion (21). Connection system according to claim 3, characterized in that the pivot frame shafts (16) are rotated in T-shape in each case by 180 ° and staggered to each other on the bottom plate, that each of the narrow areas (21) of the pivot frame shafts (16) directly to each other lie. Connection system according to one of the preceding claims, characterized in that the pivot frame shafts (16) are formed such that they are placed from above on the bottom plate (1) and then parallel to the bottom plate (1) on the same slidable until hook-like portions ( 22, 23) on the mutually facing sides of the swing frame shafts (16) and the bottom plate (1) interlock, which secure the swing frame shafts (16) on the bottom plate (1). Connection system according to one of the preceding claims, characterized in that the insulation-penetrating contacts are designed as fork contacts (4). Connection system according to one of the preceding claims, characterized in that the insulation-penetrating contacts are formed as Piercingkontakte. Connection system according to one of the preceding claims, characterized in that the insulation-penetrating contacts in the corner regions of the base body (3) are arranged. Connection system according to one of the preceding claims, characterized in that the pivot areas of the juxtaposed connection disks (2) in the direction of arrangement alternately in the two in the contacted state to the bottom plate facing - alternately right and left - corner regions (9a, 9b) of the base body (3) are formed. Connection system according to one of the preceding claims, characterized in that the pivot areas (8a, 8b) of the connection plates (2) are aligned and designed so that each adjacent connection discs (2) for connecting and disconnecting in the opposite direction of rotation are panning. Connection system according to one of the preceding claims, characterized in that the pivoting regions (8) each have one on the bottom plate (1) arranged or formed, rounded first hook portion (11) and a second hook portion (12) on the basic bodies (3) the connection washers (2). Connection system according to one of the preceding claims, characterized in that the base housing (3) of the connection plates (2) in the region of the fork contacts (4) are wider than in the region for the branch connections (5) for connection of the branching conductors. Connection system according to one of the preceding claims, characterized in that the fork contacts (4) of each connection disc (2) each have a busbar section (6) adjoins, on which the two branch connections (5) are arranged. Connection system according to one of the preceding claims, characterized in that the branch connections (5) are designed as tool-free directly connectable compression spring contacts, are formed for the insertion openings (7) in particular at the top of the base body (3). Connection system according to one of the preceding claims, characterized in that two or more of the branch connections (5) in each case side by side of the fork contact (4) in the base housing (3) are arranged. Connection system according to one of the preceding claims, characterized in that two or more of the branch connections (5) of adjacent connection disks (2) lie substantially next to one another in the connected state. Connection system according to one of the preceding claims, characterized in that the fork contacts (4) are each arranged in the adjoining the pivot region region of the base housing (3). Connection system according to one of the preceding claims, characterized in that the receptacles (13) are provided with latching projections (14) for latching fixing the continuous conductors. Connection system according to one of the preceding claims, characterized in that the connection discs (2) each have at least one side insulating covers (15). Connection system according to one of the preceding claims, characterized in that the pivot frame shafts (16) are provided with latching means (17) which cooperate with corresponding latching means (18) on the connection discs (2) to the non-switched position of the terminal Slots (2) to fix the swing frame shafts. Connection system according to one of the preceding claims, characterized in that the receptacles (13) have means for Vorverrastung the ladder in the receptacles (13).

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