APPARATUS AND METHOD FOR LONGITUDINAL SEALING OF ELECTRICAL LINES

Abstract

In a method for longitudinal sealing of electrical conductors (2) that comprise one or more conductor elements (21) disposed inside an external sheath (22), and comprise cavities (23) between the individual conductor elements (21) and between the individual conductor elements (21) and the external sheath (22), according to the present invention the one end (2a), requiring sealing, of the conductor (2) is immersed in a liquid sealing compound (3), and the other end (2b) of the conductor (2) has negative pressure applied to it. A sealing apparatus (1) suitable for carrying out said method encompasses a supply reservoir (4) for the liquid sealing compound (3) into which the one end (2a), requiring sealing, of the conductor (2) is immersed; and a negative-pressure source (5) to which the other end (2b) of the conductor (2) is connected.

Description

BACKGROUND OF THE INVENTION

The present invention relates to an apparatus and a method for longitudinal sealing of electrical conductors (electrical lines), according to the species defined respectively in Claims 1 and 5.

An apparatus and a method of this kind have been disclosed, for example, by DE 103 45 676 A1.

The penetration of water or other media into vehicle wiring harnesses can result in failure of the connected components and control units, and thus also in failure of the vehicle, since liquid media propagate, especially in stranded conductors, through the cavities. Given corresponding requirements defined by the installation location, plug connectors of sealed design are therefore used so as to obtain a sealed wiring harness. For electrical conductors that do not end in a plug connector, e.g. conductors equipped with ring cable lugs, heat-shrink tubes with hot melt adhesives are often applied from outside for sealing.

In the engine compartment specifically, or even for the installation of electrical components such as injection nozzles in the engine of a motor vehicle, media other than water, such as motor oil, also occur. A hot melt adhesive meeting the requirements resulting therefrom is not available, so that other, expensive solutions must be resorted to here, for example special ring cable lugs having a sealing insert or disconnect plug.

It is known from the aforementioned DE 103 45 676 A1 to introduce a liquid sealing compound into cavities of an electrical conductor by way of an injection needle. The risk exists, however, that the injection needle will wear or clog over time, and need to be replaced.

DISCLOSURE OF THE INVENTION

The present invention makes it possible to seal electrical conductors, in particular stranded conductors and cable harnesses, against the penetration of motor oil as well when using a suitable sealing compound. According to the present invention, the sealing compound is introduced or drawn into the cavities of the conductor by way of a negative (reduced) pressure applied from the other end of the conductor. Immersion of the intake point into the sealing compound ensures that the sealing compound is drawn into the conductor; this can also be checked by way of the change in pressure over time during the intake process. In addition, the danger of wear or clogging, as in the case with injection needles, does not exist in the context of the method proposed here.

Further advantages and advantageous embodiments of the subject matter of the invention are evident from the description, the drawings, and the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplifying embodiment of the sealing apparatus according to the present invention is depicted in the drawings and further explained in the description that follows. The Figures are in some cases cut away, schematic, and not to scale. In the drawings:

FIG. 1 shows the apparatus according to the present invention for longitudinal sealing of electrical conductors; and

FIG. 2 shows the cross section of an electrical conductor requiring sealing.

EMBODIMENT OF THE INVENTION

Apparatus 1 shown in FIG. 1 serves for longitudinal sealing of an electrical conductor 2 having one or more conductor elements (line fibers) 21. Conductor elements 21 are surrounded, as shown in FIG. 2, by an external sheath 22, such that cavities 23 remain between individual conductor elements 21 and between individual conductor elements 21 and external sheath 22.

Sealing apparatus 1 encompasses a supply reservoir (reservoir vessel) 4 filled with liquid sealing compound 3, and a negative-pressure (vacuum-pressure) source (vacuum pump) 5 having an adapter connector 6. The pressure present in adapter connector 6 is sensed with a pressure sensor 7 that is connected to a monitoring unit (not shown).

As shown in FIG. 1, the one end 2a, requiring sealing, of conductor 2 is immersed in liquid sealing compound 3. The other end 2b of conductor 2 is connected to adapter connector 6 in a manner sealed by way of a seal 8. Drawn in by the negative pressure (arrow direction 9), sealing compound 3 penetrates into cavities 23 of conductor 2, its penetration depth into conductor 2 being dependent on the processing duration and on the viscosity of sealing compound 3. If applicable, sealing compound 3 is post-treated by way of a subsequent treatment step such as, for example, a temperature treatment, in order to achieve the full sealing effect. Advantageously, multiple conductors 2 can also be simultaneously acted upon by negative pressure via adapter 6 and sealed with sealing compound 3. When end 2a, requiring sealing, of conductor 2, or more precisely external sheath 22, is immersed in sealing compound 3, this ensures that sealing compound 3 is drawn into conductor 2. This operation can also be checked directly by way of the change in pressure, sensed with pressure sensor 7, during the intake process.

Alternatively or in addition to the negative-pressure source, as indicated with dashed lines in FIG. 2, sealing compound supply reservoir 4 can be closed off in pressure-tight fashion with a cover 10 and connected to a positive-pressure source 11. Alternatively or in addition to the action of the negative pressure, the action of the positive pressure (arrow direction 12) thus also results in the introduction of sealing compound 3 into conductor 2 that requires sealing.

Claims

1-9. (canceled)

10. A method for longitudinally sealing electrical conductors, the method comprising: immersing one end, which requires sealing, of the conductor in a liquid sealing compound; andapplying a negative pressure to another end of the conductor;wherein the conductors include conductor elements disposed inside an external sheath, and include cavities between the individual conductor elements and between the individual conductor elements and the external sheath.

11. The sealing method of claim 10, wherein the supply reservoir of the liquid sealing compound, into which supply reservoir the one end of the conductor is immersed, has a positive pressure applied to it.

12. The sealing method of claim 10, wherein the sealing compound drawn into the conductor is subsequently subjected to a post-treatment, which is a temperature treatment.

13. The sealing method of claim 10, wherein the negative pressure is monitored as the sealing compound is drawn in.

14. An apparatus for longitudinally sealing electrical conductors, comprising: a negative-pressure source; anda supply reservoir for a liquid sealing compound into which one end, requiring sealing, of the conductor is immersed, and by the negative-pressure source to which another end of the conductors is connected.

15. The sealing apparatus of claim 14, wherein the negative-pressure source has an adapter to which the conductors requiring sealing are connectable.

16. The sealing apparatus of claim 14, further comprising: a positive-pressure source, to which the sealing compound supply reservoir is connectable;wherein the sealing compound supply reservoir is closed off in pressure-tight fashion.

17. The sealing apparatus of claim 14, further comprising: a pressure sensor to sense the negative pressure of the negative-pressure source.

18. A longitudinally sealed electrical conductor, comprising: a sealing compound; andconductor elements disposed inside an external sheath, and having cavities between the individual conductor elements and between the individual conductor elements and an external sheath, wherein at least at one end of the conductor elements, the cavities are filled, proceeding from an end of the conductor elements, with the sealing compound.