EP1870909A1 - Ribbon cable - Google Patents

Abstract

The cable (1) has electrical conductors (3) arranged in parallel at a distance in a plane (2), where the conductors are enclosed by an insulator (4) made of a thermoplastic resin. The insulator has an outer surface (5) running at a distance to another outer surface (6). End sections (9) of the cable are formed at lateral longitudinal ends (8) of the cable, where the sections connect the surfaces. The sections are extended and rounded in a longitudinal direction of the cable. The surfaces are projected in a direction of thickness and forms a transition (10) rounded to the surfaces.

Description

The invention relates to a ribbon cable having a plurality of spaced apart in a plane spaced electrical conductors. Such ribbon cables can serve to forward an electric current and thereby form circuits.

In flat cables, for example, to be connected to a connector or are inserted into a housing, there is a need, especially in the automotive sector, a seal between the surface of the ribbon cable and the connector or housing in which it is to be introduced to the occurrence of Prevent moisture or leakage of agents located in the housing. Ribbon cables are usually designed rectangular in cross-section. The sealing of such a rectangular cross-section is problematic because such ribbon cables are usually mass products and, for example, by extrusion of a plastic material as insulation, in which the conductors are embedded, are produced. In addition, often the openings through which the ribbon cable are inserted into a connector or a housing, part of components that are also made of plastic by way of injection molding. Small inaccuracies lead to a secure seal is not guaranteed, especially at the corners of the rectangular in cross-section cable. This is true even if the ribbon cable is passed through a seal made of a harder material having the passage through which the ribbon cable passes. In the prior art, therefore, many suggestions are present to physically unite a seal and the ribbon cable, ie produce a material connection between the two in order to achieve the necessary tightness. The seal is attached to the End, which enters a device housing or in a connector, integrally formed or adhesively bonded to the ribbon cable cohesively.

The effort for this is considerable and the use of such a measure is, if at all, only for the standard equipment used.

For areas in which cables with connectors are to create later or are ready for the retrofit sector to create, such measures are not suitable.

The US 2005/0003709 A1 describes, for example, a waterproof sealing arrangement, wherein the ribbon cable and the seal are provided with an adhesive coating, by means of which the seal and the ribbon cable are tightly interconnected. The elastic seal itself then takes over the seal, for example, to a connector housing.

The US 2002/0052141 A1 describes an arrangement in which a soft elastic seal is materially connected to a cable and the soft elastic seal is then received in a corresponding sealing portion of a housing. The seal is formed directly on the ribbon cable.

The object of the invention is to provide a ribbon cable that is suitable for mass production and beyond a secure seal against a passage in a housing directly or even with respect to a seal having a passage can achieve without it special mediating Treatments needed.

This object is achieved according to the invention by a ribbon cable with a plurality of spaced apart in a plane spaced electrical conductors, which are enclosed by an insulation of a thermoplastic material, which
a first outer surface which extends at a distance from the plane in which the conductors are arranged next to each other at a distance,
a second outer surface which extends at a distance from the first outer surface and the plane, wherein the distance between the two outer surfaces forms a thickness, at their lateral longitudinal ends the two outer surfaces connecting end portions which extend in the longitudinal direction of the ribbon cable and are rounded, wherein extend beyond the outer surfaces in the thickness direction and form rounded transitions to the outer surfaces.

By this measure it is achieved that the rounded end portions provide sufficient material to achieve an exact seal even in a rectangular passage or inaccurately made passage. The passage does not necessarily have to be exactly adapted to the shape of the ribbon cable.

Since no mediating treatments between the passage member and the ribbon cable, for example, by the application of an adhesive or the like, is required, the cost of the tight mounting of such a ribbon cable reduce significantly, even if the ribbon cable with only a relatively stiff trained Component (eg seals made of a harder material, such as silicone) cooperates, which has the passage for the ribbon cable. Of course, it is also possible that the ribbon cable is used in conjunction with soft-elastic gaskets having a passage. It is not necessary to treat both parts before to improve the tight connection. In particular, the rounded end portions also ensure that even if the ribbon cable in the gasket receiving it in the lateral direction, i. in the direction of the greatest extent of its cross-section, no displacement is achieved, which leads to a leak, since the rounded end portions provide sufficient material for the effective and permanent sealing.

It is preferably provided that the rounded part of each end section is circular in cross-section and has a diameter which is greater than the thickness, and that each transition is represented by a curve of at least one circular arc with a radius which is greater than 0, 5 times the diameter. As a result, a particularly favorable sealing effect is achieved. Alternatively it is provided that the rounded end portion is approximated in cross-section of an oval shape.

In an embodiment of the invention, it is provided that the insulation enclosing the conductors is produced by extrusion. By designing the end portions of the ribbon cable, it is possible to use methods of manufacturing the same, which allow mass production.

In the context of the ribbon cable according to the invention, it is possible to use this with a sealing arrangement in which a passage for the ribbon cable is provided, which is designed rectangular.

Alternatively, the ribbon cable may be used in a sealing arrangement comprising a sealing element having a passage for the ribbon cable and made of a flexible material. Another possibility is to use the flat ribbon cable according to the invention in a sealing arrangement which comprises a sealing element which forms a passage for the ribbon cable, in which chambers open to the passage are provided, which are filled with a gel. Such sealing arrangements, in conjunction with the ribbon cable according to the invention, provide a hermetic and durable seal which maintains the tightness even when the force is exerted on the side of the ribbon cable.

In both embodiments described above, it can be provided that the passage is rectangular or adapted to the shape of the ribbon cable.

Preferred embodiments of the invention are shown schematically in the drawing.

It shows

FIG. 1

a perspective view of a portion of a ribbon cable according to the invention,

FIG. 2

a view in the direction of arrow P on the ribbon cable,

FIG. 3

an end portion at a lateral longitudinal end of the ribbon cable on an enlarged scale in relation to a passage,

FIG. 4

3 is a perspective view of a connector with a portion of a ribbon cable according to the invention associated therewith,

FIG. 5

a sealing element having a passage through which the ribbon cable is inserted,

FIG. 6

another embodiment of a sealing element with the assignment of a ribbon cable and

FIG. 7

a longitudinal section through the arrangement of Figure 6.

First, Figures 1 and 2 will be described together. The two figures show a ribbon cable 1, wherein Figure 1 shows a portion thereof, whose longitudinal direction is designated L. It is a ribbon cable 1, which comprises in a plane 2 by far side by side arranged electrical conductors 3, which are enclosed by an insulation 4 made of a thermoplastic material. The lateral longitudinal ends extending in the longitudinal direction L are designated by 8. At the longitudinal ends 8 end portions 9 are formed, whose design is explained in more detail in connection with Figure 3. The flat-ribbon cable 1 has a first outer surface 5 and a second outer surface 6 facing away from this, which ends in between the two end portions 9 extending at the lateral longitudinal ends 8. The two outer surfaces 5, 6 are arranged at a distance from one another, forming the thickness 7, and in each case arranged in different directions at a distance from the plane 2. The two outer surfaces 5 and 6 are substantially parallel to the plane 2, wherein is essentially to understand that due to the manufacturing process by extrusion variations in the thickness 7 may occur, so that differences to the other areas may be present.

The end portions 9 each comprise a rounded part 11 and the rounded part 11 with the first outer surface 5 and second outer surface 6 connecting transitions 10th

From Figure 3, the design of one of the two end portions 9 is shown enlarged at the lateral longitudinal ends 8, in relation to a schematically illustrated passage 15, for example, to a seal, possibly also a housing is inserted into the ribbon cable 1, may include and is rectangular.

It can be seen that the end portion 9 is formed in relation to the located between the two longitudinal ends 8 portion with the first outer surface 5 and the second outer surface 6 and the thickness formed between the two 7 thickened.

The end portion 9 has a rounded portion 11, which is substantially circular in shape and has a diameter 12 which is greater than the thickness 7, so that the end portion 9 of the ribbon cable 1, the passage 15 with its upper and lower shown in Figure 3 Boundary edge exceeds. The rounded part 11 designed with the diameter 12 merges into the first and second outer surface 5, 6, each with a transition 10. In this case, the radius 13, which connects the first outer surface 5 and the second outer surface 6 with the rounded part 11, is dimensioned so that it is greater in dimension than half the diameter 12. The transition 10 may be formed by a plurality of such curves formed by radii ,

From the relationship between the rounded part 11 and the rectangular passage 15, since the ribbon cable 1 is shown in its relaxed state, there is a clearance which can be filled by the overhang of material due to the rounded part 11 with the transition 10 Namely, such that the outer contour of the ribbon cable 1 at the end portions 9 conforms to the shape of the passage 15, and a tight connection is made between the member having the passage 15 and the ribbon cable 1 becomes. Thus, sufficient material is provided at the end portions 9 in order to be able to compensate for deviations in the passage 15 due to manufacturing inaccuracies. Convenient, however, is a shape for the passage 15 which is at least approximately adapted to the shape of the ribbon cable 1 in the region of the end portions 9. Incidentally, such a shape is more favorable to produce than a shape that provides pronounced corners in the passage 15.

Such sealing problems can occur in particular in the case of a plug connector 14, as shown in FIG. It is shown in addition to the connector 14 which is connected to him ribbon cable 1, which is inserted through a passage 15 and 115 in the housing of the connector 14, wherein the passage 15 or 115 belongs to sealing elements, as shown for example in Figures 5 to 7 are shown.

FIG. 5 shows a sealing element 16 which, for example, is made of silicone and has a passage 15 through which the ribbon cable 1 is passed. The sealing element 16, for example, a seal between a housing of a connector 14, as shown in Figure 4 and, for example, a lid that holds the sealing element 16, and further between the ribbon cable 1 and the sealing element 16 ago.

Figure 6 shows a sealing element 116 as a single part, through which the ribbon cable 1 is passed. In this case, the sealing element 116 forms a passage 115, which can be seen in more detail from FIG. 7, which shows a longitudinal section through the arrangement according to FIG. It can be seen that the sealing element 116, which is made for example of a silicone material, in addition to the outer surfaces and the end portions of the ribbon cable 1 facing provided with chambers 17 which are open to the passage 115 and are filled, for example with a gel for effective sealing. The gel contacts the opposing surfaces of the ribbon cable 1 and seals hermetically.

LIST OF REFERENCE NUMBERS

1

Ribbon cable

2

level

3

ladder

4

insulation

5

first outer surface

6

second outer surface

7

thickness

8th

lateral longitudinal ends

9

end

10

crossing

11

rounded part

12

diameter

13

radius

14

Connectors

15, 115

passage

16, 115

sealing element

17

chamber

L

longitudinal direction

P

arrow

Claims (8)

Ribbon cable (1) with
a plurality of in a plane (2) juxtaposed spaced electrical conductors (3) which are enclosed by an insulation (4) made of a thermoplastic material, which
a first outer surface (5) which extends at a distance from the plane (2) in which the conductors (3) are arranged next to each other at a distance,
a second outer surface (6) which extends at a distance from the first outer surface (5), wherein the distance between the two outer surfaces (5, 6) forms a thickness (7),
at its lateral longitudinal ends (8) the two outer surfaces (5, 6) connecting end portions (9) extending in the longitudinal direction of the ribbon cable (1) and are rounded, wherein in the direction of the thickness (7) the outer surfaces (5, 6) and form rounded transitions (10) to the outer surfaces (5, 6). Ribbon cable according to claim 1,
characterized,
that the rounded part (11) of each end portion (9) is circular in cross section and has a diameter (12) greater than the thickness (7), and that each transition (10) is formed by a curve of at least one circular arc Radius (13) is shown, which is greater than 0.5 times the Diameter (12). Ribbon cable according to claim 1,
characterized,
that the rounded end portion (9) in cross section approximates an oval shape. Ribbon cable according to one of claims 1 or 2,
characterized,
that the conductor (3) enclosing insulation (4) is made by extrusion. Ribbon cable according to one of claims 1 to 4,
marked
by use in a sealing arrangement having a section forming a passage (15) for the ribbon cable (1), the passage (15) being rectangular. Ribbon cable according to one of claims 1 to 4,
marked
by the use in a sealing arrangement with a sealing element (16), which has a passage (15) for the ribbon cable (1) and consists of a soft elastic material. Ribbon cable according to one of claims 1 to 4,
marked
by use in a sealing arrangement having a sealing element (116) forming a passage (115) for the ribbon cable (1) and having chambers (17) open to the passage (115) which are filled with a gel. Ribbon cable according to one of claims 5 or 6,
characterized,
that the passage (115 15) is formed rectangular or adapted to the shape of the ribbon cable (1).

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