DE102009021546A1 - Pre-assembled electric cable, has cable casing partially removed at cable section for exposing conductor section that has higher resistance in comparison to remaining conductor, where conductor section is enclosed by housing - Google Patents

Abstract

The cable (2) has an electric conductor (6) surrounded by a cable casing (4), where the casing is partially removed at a cable section (8) for exposing a conductor section (10). The conductor section has higher resistance in comparison to the remaining conductor for forming a securing element (12), and is enclosed by a housing (14) that is formed as a hollow cylindrical casing. The conductor section has variable cross-section in comparison to the remaining conductor, where changing of the cross-section is taken place by mechanical deformation or removal of material of the conductor section.

Description

The The invention relates to an electrical cable with one of a cable sheath surrounding electrical conductors. The cable sheath usually exists made of an insulating material, such as a plastic PVC.

At the Flow an electric current through the electrical conductor heats up this proportional to the current on. When crossing a threshold of amperage The conductor can heat up so much that the cable sheathing damaged becomes. So there is one made of a plastic such as PVC Cable sheath the risk that the plastic of the cable sheath melts. As a result of a damaged cable sheath can In particular, there is a short circuit.

Around an invalid To avoid heating the electrical conductor, are usually fuse elements used for protection. The fuse element is for example designed as received by a fuse holder fuse. When crossing a current threshold value melts the head of the fuse. In this way the current flow is interrupted. A thermal damage the electrical conductor or its cable sheath can be so surely avoid.

For the hedge of the electrical conductor must be the fuse element with the electrical conductor be contacted. This is partly with a considerable installation effort connected.

task The invention is therefore to provide an electrical cable at this installation effort is reduced and yet against overload is secured.

The The object is achieved by the feature combination of claim 1. This is in a cable section the cable sheath at least partially removed, so that a conductor section is exposed. The exposure of the conductor portion may, for example done with a cable knife or with a similar tool. The exposed conductor section has compared to the rest Head an elevated Resistance to the formation of a fuse element. The oversight the conductor portion with the fuse element can be, for example, immediately after cutting to length of the cable. The exposed conductor section or the securing element is of an enclosure, in particular taken from an insulating material.

The electrical cables and the fuse element thus form an integral Component. The fuse element is therefore already directly in the cable embedded. A severing of the conductor to a separate fuse element insert is not required and preferably not provided. This integral component is intrinsically safe, d. H. a separate and additional Hedging must therefore not be made. The electric Cable can be even before connecting of the cable provided with the securing element. Thus can be Mount the cable in the field like a conventional cable. Because such a preassembled cable already with its fuse element is missing or insufficient hedging by avoided a mounting error. Rather, it is always a suitable one electrical protection of the electrical cable or the cable ensured connected electrical loads.

Increases the current in the electrical conductor above a threshold, so the electrical conductor is heated. The fuse element associated with the electrical conductor heats up because of the higher Resistance particularly strong. After some time melts the material of the fuse element. The electrically conductive Connection is interrupted. The electrical cable will not work otherwise damaged. It can be used as part of a maintenance effort in a simple manner a structurally identical cable to be replaced.

to Formation of the fuse element may be the corresponding conductor section advantageous an altered Have cross-section. It is under a cross-sectional change especially a change the cross-sectional geometry or a reduction of the cross-section to understand.

On that way locally the resistance of the electrical conductor or of increase it formed fuse element. A change of the conductor cross-section leaves expediently through achieve mechanical deformation and / or material removal. That way you can an elevated one Resistance just over a change specify the conductor geometry in the area of the conductor section. A change of the conductor cross-section leaves reach for example by means of a stamping tool. A Reduction of the conductor cross-section can be achieved, for example, by subjecting the conductor section to stretching or by in the ladder section recesses or recesses by sawing, through mill or the like.

In an appropriate training is applied to the ladder section a material to increase its electrical resistance.

An electrical conductor usually has a very high electrical conductivity. He is insbesondre made of a material such as copper. Advantageously, the conductor section is alloyed with a material to increase its resistance. During alloying, a metallic mixed crystal is formed from the material of the electrical conductor and the further material. For alloying the electrical conductor, not only a metal but also a metallic alloy or a non-metal may be used. By alloying, the conductor section can be specifically provided with an increased in comparison to the rest of the electrical conductor resistance, so that the fuse element is formed.

In An advantageous variant is to form an alloy Metal or a metallic alloy as a metallic melt in the manner of a solder ball applied to the ladder section. Distributes the metallic melt itself on the surface of the Conductor section. The atoms of the melt partially diffuse into the interior of the ladder section. At the same time, atoms of the metallic melt into the crystal lattice of the conductor section. After this Cooling of the melt are the atoms in the crystal lattice of the conductor section built-in. The material of the conductor section and the material The metallic melt together form a diffusion alloy. It is already sufficient if the alloy is only in an outer area of the cross section of the conductor portion forms.

Preferably Tin or a tin alloy is applied to the usually copper conductor, so that forms bronze as an alloy.

Is appropriate the housing connected to the cable sheath. In this way is the exposed conductor section and thus the fuse element Completely enclosed by the enclosure. The enclosure isolates the ladder section thus electric and at the same time forms a mechanical protection. So when laying or connecting the electrical cable ensures that it does not cause any mechanical damage of the electrical conductor in the region of its exposed conductor section can come.

Advantageous is in the final assembled state an insulating cavity between the Secured element and the inside of the housing formed. On In this way, the fuse element is electric in a simple manner and thermally insulated. A direct contact with an insulating material and a possible one damage This insulating material is thus safely avoided. By this thermal Insulation is reinforced Heating the fuse element relative to the rest of the conductor due of his increased electrical resistance.

Is appropriate the housing formed as a hollow cylindrical sleeve. Such hollow cylindrical sleeve has a simple geometry and can thus be manufactured inexpensively.

Advantageous the enclosure is dimensionally stable. Thus can be a mechanical contact between the conductor section and the enclosure also safe at a mechanical load of the electric cable avoid. Furthermore, damage to the housing is mechanical Load, z. As in the laying of the cable avoided.

In an appropriate training is the hollow cylindrical sleeve formed from two half-shells. Such an enclosure can be easy to assemble. Furthermore, the two half-shells can be left with a slight undercutting of the outer sheath finished the cable sheath, so that the housing in the final assembled state with their sleeve ends firmly against the cable sheath.

Advantageous are at least on one of the two half-shells fasteners provided for connecting the two half shells together. The Fasteners can For example, as a locking pin and corresponding recesses be educated. The two half shells are thus easy put together to form the enclosure. With a slight undersize of the two Half shells opposite the outer jacket the cable sheath becomes the cable sheath of both sleeve ends as if trapped. In this way, the sleeve is secured in position. An accidental slipping of the sleeve is thus avoided.

The Task is still solved by a pre-assembled electrical cable with a after one of the claims 1 to 11 formed electrical cable and with at least one on the cable arranged electrical connection element. In this way let yourself Align the cable to the mounting situation before mounting. For example, it can be cut to a defined length and one-sided or two-sided be provided with electrical connection plugs. The mounting or the connection of the electric cable can be thus particularly easy in the context of a cost-optimized production and cost-effective To run. Such a prefabricated electrical cable is particularly suitable for industries, where there is a high cost pressure, for example for the automotive industry.

An embodiment of the invention will be explained in more detail with reference to a drawing. In it shows the only figure a part of an elek cable.

According to the figure has an electrical cable 2 one of a cable sheath 4 surrounded electrical conductor 6 on. The cable sheath 4 consists of an insulating material, such as PVC. The electrical conductor 6 is designed for example as a copper wire.

At a cable section 8th is the cable sheath 4 removed to expose a ladder section 10 , The exposed ladder section 10 has in its middle part one opposite to the remaining electrical conductor 6 increased resistance to form a fuse element 12 on. This is the middle part of the ladder section 10 alloyed with a metallic material. For this purpose, tin is preferably applied to the conductor in a simple manner. The length of the exposed conductor section is in the range of a few centimeters.

To protect the fuse element 12 is a hollow cylindrical enclosure 14 provided, consisting of two cylindrical shells 16 is formed. At the end faces facing each other 18 the two half-shells 16 are mutually corresponding locking pin 20 and recesses 22 intended. By means of the locking pin 20 and the recesses 22 let the two half shells 16 just plug it together. In the final assembled state is the fuse element 12 from the enclosure 14 completely recorded. Between the fuse element 12 and the inside of the enclosure 14 now an insulating cavity is formed. At its two sleeve ends formed in the cable longitudinal direction x 24 is the sleeve 14 now on the outside of the cable sheath 4 on.

The electric cable 2 can be designed as a pre-assembled cable and provided with electrical connection elements, such as plugs or the like, at its not visible cable ends. In this way, the electric cable can be 2 connect quickly as part of an optimized manufacturing process.

The enclosure is formed of a dimensionally stable material. In the final assembly, the housing protects 14 the fuse element 12 before mechanical damage. The insulating cavity ensures safe electrical insulation of the fuse element 12 , Even with a greater heat development at the location of the fuse element due to its compared to the rest of the electrical conductor 6 Increased electrical resistance can not cause thermal damage to the cable sheath 4 come.

If there is an electric current flowing above a threshold value, the fuse element heats up 14 opposite the rest of the electrical conductor 6 stronger. The fuse element 14 melts and the electric current is interrupted. In this way is a protection of the electric cable 2 given over overload. In case of failure of the fuse element 14 becomes the electrical cable 2 simply replaced by an identical cable.

2

electrical electric wire

4

cable shielding

6

electrical management

8th

cable section

10

conductor section

12

fuse element

14

housing

16

half shell

18

end face

20

latching pin

22

recess

24

The End

X

Cable longitudinally

Claims (13)

Electric cable ( 2 ) with one of a cable sheath ( 4 ) surrounded electrical conductors ( 6 ), - wherein at a cable section ( 8th ) the cable sheath ( 4 ) is at least partially removed to expose a conductor portion ( 10 ), - wherein the exposed conductor section ( 10 ) compared to the rest of the ladder ( 4 ) has an increased resistance to form a fuse element ( 12 ) and - wherein the exposed conductor section ( 10 ) of an enclosure ( 14 ) is surrounded. Electric cable ( 2 ) according to claim 1, wherein the conductor section ( 10 ) one compared to the rest of the electrical conductor ( 6 ) has changed cross section. Electric cable ( 2 ) according to claim 2, wherein the change of the cross-section by a mechanical deformation or by a material removal of the conductor portion ( 10 ) is done. Electric cable ( 2 ) according to one of claims 1 to 3, wherein in order to increase the resistance on the conductor section ( 10 ) a material is applied. Electric cable ( 2 ) according to one of claims 1 to 4, wherein the conductor section ( 10 ) is alloyed with a material to increase its resistance. Electric cable ( 2 ) according to claim 4 or 5, wherein on the conductor section ( 10 ) Tin is applied. Electric cable ( 2 ) according to one of claims 1 to 6, wherein the enclosure ( 14 ) with the cable sheath ( 4 ) connected is. Electric cable ( 2 ) according to one of claims 1 to 7, wherein in the final assembly state, an insulating cavity between the securing element ( 12 ) and the inside of the enclosure ( 14 ) is formed. Electric cable ( 2 ) according to one of claims 1 to 8, wherein the housing as a hollow cylindrical sleeve ( 14 ) is trained. Electric cable ( 2 ) according to one of claims 1 to 9, wherein the enclosure ( 14 ) is formed dimensionally stable. Electric cable ( 2 ) according to claim 9 or 10, wherein the hollow cylindrical sleeve ( 14 ) of two cylindrical half-shells ( 16 ) is formed. Electric cable ( 2 ) according to claim 11, wherein at least on one of the two half shells ( 16 ) Fasteners ( 20 . 22 ) are formed for connecting the two half-shells ( 16 ) together. Pre-assembled electrical cable comprising an electrical cable ( 2 ) according to one of claims 1 to 12 with at least one on the cable ( 2 ) arranged electrical connection element.