EP0807999A1 - Power distribution system - Google Patents

Abstract

In the power distribution system according to the invention, cable branches (2, 3) are connected to an integrated busbar (1), which comprises a power, an auxiliary power and a communication bus line. A branch cable (5), which is also designed as an integrated busbar, is coupled to the passive cable branch (2) and leads to a communication-capable consumer branch (6) to which a subscriber (8) can be connected. The active cable branch (3) is designed as a communication-capable consumer branch.

Description

The invention relates to an energy distribution system with branches for supplying consumers.

Power distribution systems in which passive junction boxes, e.g. in house installation, consumer feeders connected to energy, control voltage and communication bus lines as individual cables are known per se. Usually separate junction boxes are used for the communication bus. On the other hand, it is possible to lay all cables directly to the load feeders and from there lay further cables to the next feeders. For reasons of safety, it is customary to insert a corresponding fused disconnect switch or even just a fuse into the circuit of the stub in the case of stub lines with tapered cross sections. All connection nodes are equipped with clamps so that all cables must be cut and stripped before they can be connected. Such a system installation is extremely time-consuming and unsuitable for applications such as are found, for example, in branches in conveyor and system technology. Here, clear installation of the systems is increasingly required, with the project planning effort being kept as small as possible. The customary configuration with detailed plans and associated wiring lists is viewed by the users as cumbersome and costly.

It is therefore the object of the invention to create an energy distribution system with which a simple and time-saving construction of branches is made possible in a simple manner, combined with little configuration effort.

The object is achieved with an energy distribution system having the features of claim 1. This includes a first, designed as a flat cable, integrated busbar with line wires of different cross-section, which is adapted for use as an energy line with supply voltages above 120 V and / or as an auxiliary power line and / or as a communication line, and a cable branch with a housing that has a contacting device working according to the principle of penetration technology.

Advantageous developments of the invention can be found in the subclaims.

To connect remote consumers, it is advantageous if the contacting device is used to connect a second integrated busbar to the first, integrated busbar as a flat branch cable, which at its other end is electrically connected to a consumer branch capable of communication, e.g. contains an integrated circuit for processing signals transmitted via the communication line and to which at least one consumer can be connected.

It is also advantageous if the cable branch is designed as a communication-capable consumer branch, which contains an integrated circuit for processing signals transmitted via the communication line and to which at least one consumer can be connected. This solution is particularly suitable for supplying and controlling several consumers that are used in the vicinity of the first integrated busbar.

A fuse for protecting the branch is advantageously provided in the housing.

For safety reasons, it also proves to be advantageous if the housing has a fuse-operated disconnector contains, since this triggers the disconnection of the voltage through a visible isolating path when the operator triggers.

FIG 1

eine als Flachkabel ausgeführte integrierte Sammelschiene und

FIG 2

ein Energieverteilungssystem mit Kabel-Abzweigen.

An embodiment of the invention is explained below with reference to a drawing. Show it:

FIG. 1

an integrated busbar designed as a flat cable and

FIG 2

an energy distribution system with cable branches.

1 shows a flat cable 1 which can be used in the present invention, for example, and which has a plurality of line wires with different cross sections and is constructed in such a way that it can be used as an energy line with supply voltages above 120 V, as an auxiliary power line and as a communication line. The cable cores have the cross sections required for their use. Such a flat cable 1, embodied as an integrated busbar, can be provided according to the invention with a passive cable branch 2 or with an active cable branch 3. These cable branches 2, 3 each have a housing with a contacting device 4, via which the line wires of the integrated busbar can be contacted. To the passive cable branch 2, a branch flat cable 5 is connected via the contacting device 4, which is also designed as an integrated busbar with line wires as the power line, auxiliary power line and communication line. At the other end of the flat branch cable 5, a communication-capable load feeder 6 is coupled with an integrated circuit 7, which is used to process signals transmitted via the communication line. As shown in FIG. 2, a consumer 8 or any actuator or sensor can be connected to the consumer feeder 6 as a subscriber. To protect the branch, consisting of the branch flat cable 5, the communicable consumer branch 6 and the consumer 8, one in the housing of the passive cable branch 2 housed fuse 9. Instead of this fuse, a fused disconnector can be provided in the housing.

The solution described with the passive cable branch 2 is suitable in applications where a group of consumers are to be operated at a greater distance from the flat cable 1. For this purpose, a single flat branch cable 5 is led to the place of use of the consumer 8 and the control of the consumer 8 or other participants is carried out only on site with the aid of the intelligent, communication-capable consumer branch 6.

The active cable branch 3 according to FIG. 2 is designed as a communication-capable load feeder and, if necessary, can also contain a fuse or a fuse-connected disconnector to protect the branch. Here the consumers 8 or other participants are directly coupled to the cable branch 3, which is suitable in applications in which the consumers are used in the vicinity of the flat cable 1, so that the wiring effort to the consumers remains low.

• Eine Vereinfachung hinsichtlich Engineering und Inbetriebnahme,
• einen einfachen Anschluß der Geräte an das Sammelschienensystem und
• eine Kostenreduzierung durch Integration zu Funktionsgruppen.

The solutions described with the passive cable branch 2 and the active cable branch 3 offer the following advantages overall:

• A simplification in terms of engineering and commissioning,
• a simple connection of the devices to the busbar system and
• cost reduction through integration into functional groups.

Although the present invention is explained with reference to the embodiment shown in the accompanying drawing, it should be borne in mind that this is not intended is to limit the invention only to the illustrated embodiment, but to include all possible changes, modifications and equivalent arrangements, insofar as they are covered by the content of the claims.

Claims (5)

Power distribution system with a first integrated busbar (1), designed as a flat cable, with line wires of different cross-sections, which is adapted for use as an energy line with supply voltages above 120 V and / or auxiliary power line and / or as a communication line, with a cable branch (2,3 ) with a housing which has a contacting device (4) working according to the principle of penetration technology. Power distribution system according to Claim 1, characterized in that by means of the contacting device (4) to the first (1) a second integrated busbar (5) is connected as a flat branch cable, which at its other end is electrically connected to a communicating consumer branch (6) is connected, which contains an integrated circuit (7) for processing signals transmitted via the communication line of the integrated busbars (1,5) and to which at least one consumer (8) can be connected. Power distribution system according to Claim 1 or 2, characterized in that the cable branch (3) is designed as a communication-capable consumer branch which contains and receives an integrated circuit (7) for processing signals transmitted via the communication line of the integrated busbar (1) which at least one consumer (8) can be connected. Power distribution system according to one of the preceding claims, characterized in that a fuse (9) for protecting the branch is provided in the housing of the cable branch (2 or 3). Power distribution system according to one of the preceding claims, characterized in that the housing contains a fuse-operated disconnector.

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