EP0893804A2 - Cable with an outer conductor of a plurality of elements - Google Patents

Abstract

The cable comprises an inner conductor (1), an isolation (4) which encloses the inner conductor (1), and an outer conductor including several, elongated elements (2), proceeding in a longitudinal direction of the cable, which rest on the isolation of the cable. A wrapping layer (3) sits close to the elements of the outer conductor and on the isolation, and encloses them. The cross-section of the surface (6) of the isolation, vertical to the longitudinal direction of the cable, forms a polygon, and the wrapping layer rests on the corners (7) of the polygon. The elements and the wrapping layer are preferably electrically conductive and are in contact with each other.

Description

The invention relates to a cable according to the preamble of claim 1.

Cables often consist of one or more Inner conductors, an insulation that the inner conductor encloses, and an outer conductor resting on it, which usually forms an electrical shield. One such structure show z. B. electrical coaxial cables, such as antenna cables or data cables, for example for Networking of computers that are common. Often an outer conductor consists of individual, elongated Elements with preferably approximately circular Cross-section, especially wires, strands or Optical fibers. Those lying on insulation Elements can be a single or multiple of each other form and run independent external conductors essentially in the longitudinal direction of the cable, with one turn around the cable axis or a corrugation for length compensation is possible. The outer conductor is on the outside surrounded by a coating that contains its elements as well encloses the insulation together and on both is present. In the simplest case, the cable jacket is the Cladding layer. One especially with coaxial cables Common structure is that a metal foil rests as a sheath on outer conductor wires and both together form the shield of the inner conductor or conductors. If rigid plastic insulation is used, there is always a risk that the elements of the Outer conductor during the manufacture or handling of the Move the cable, especially when there is a bend. Is it the elements of the outer conductor? Shielding wires of a coaxial cable, the shielding in be significantly impaired as a result, such as when the shield wires of the cable on the inside of one Bend. When using soft insulation, in which the elements can impress is the Limitation of possible insulation materials from Disadvantage. In addition, during production it is necessary the elements precisely before applying the cladding layer align in the intended position in the cable. Finally, it is conceivable to grooves in the insulation and insert the elements in it. This too however, is complex and requires a high level Manufacturing precision.

Proceeding from this, the invention has developed a cable that is easy to manufacture Task given the elements of the outer conductor regardless of the mechanical properties of the Insulation against displacements around the cable axis are fixed.

This object is achieved by the characterizing features of claim 1 solved.

The idea of the invention is based on the outer conductor the extent of the insulation by their shape in Interact with the shell layer. To this The purpose of the cross section of the insulation is perpendicular to The shape of a cable axis in its outer contours Polygons on. The elements of the outer conductor are located in the area of the sides of the polygon while the Envelope at the corners of the polygon and on the Outside of the elements. The elements of the External conductors are thus in their position on the Insulation fixed, in particular a shift across the corners of the polygon from the cladding layer is prevented. Suitable elements are, for example Wires or strands, for example made of copper, or Optical fibers, which may also be between let electrical shield wires run. To also such Elements of the outer conductor in the manner described above to be able to fix, which are stranded around the insulation, the sides and corners of the polygon, i.e. the planes External surfaces and the edges of the insulation run helically around the cable axis.

Are useful - depending on the diameters insulation and elements - polygons with about 4 to 20, preferably 6 to 10 corners. With a small number corners are particularly well fixed Elements on the respective side surface of the polygon. With a larger number of corners there is one better approximation to a round cross section accessible, the z. B. in a coaxial cable for reasons field symmetry and handling is preferred. Next flat sides of the polygon are also concave or corrugated surfaces of the insulation possible to the Fixation of the elements to improve and if necessary Space to accommodate larger diameter elements to provide.

The covering layer is expediently a tape or a film, which are preferably introduced longitudinally into the cable while laying around the insulation and the elements becomes. Adjacent edges of the cladding layer preferably welded to butt or overlapping each other. In this way, it is particularly waterproof Completion of the interior of the coating layer against moisture possible that penetrates into the cable sheath.

The formation of the cable inside the polygon is complete largely free within the scope of the invention. Especially can be different materials for the Use insulation, such as solid or foamed Plastics. There is also a multilayer Insulation possible, such as a plastic on the A final film or a surface Conductive layer is located. Likewise, the cable can be one or contain several inner conductors, which are both can be electrical as well as optical conductors.

The advantage of the proposed cable is that secure fixation of the outer conductor on the circumference of the Insulation. The definition can be made regardless of Make insulation material in a simple way, by placing the coating on the outer conductors and the Insulation is applied. A shift in Outer conductor elements, for example at a bend in the cable, is therefore excluded. Shielding in particular of coaxial cables can be considerably in this way improve. Also when connecting cables with each other or with connection elements Defined arrangement of the outer conductor is an advantage.

In an advantageous embodiment of the invention both the cladding layer and several outer conductors electrically conductive and are in relation to each other electrical contact. The coating is there expediently a metal foil, such as a steel or Aluminum foil, or a two or more layers Metal-plastic composite film. Form this way the cladding layer and the elements of the outer conductor together shield the inner conductor like it for example with a coaxial antenna cable or a data cable is common. Unlike the Cables known from the prior art are the However, wires or strands of the outer conductor opposite a shift fixed on the circumference of the insulation.

The covering layer is introduced into the cable as a tape and wrapped around the insulation, theirs overlap contiguous edges useful for manufacturing to simplify. It is preferably an in Cable longitudinal direction, its parallel to the Edges of the cable axis overlap each other. in the Case of a metal-plastic composite film as a covering layer Both surfaces of the film are expediently electrical conductive to a mutual in the overlap area electrical contact and thus a good shielding effect to ensure. The gluing or is conceivable Welding of the overlapping edges.

With the aim of establishing the outer conductor too improve, the cladding layer is preferably in the range the corners of the polygon fixed to the insulation. To this is done by gluing or welding between the cladding layer and insulation suggested that is easy to do. The displacement of an element of the outer conductor is over a corner of the polygon thus definitely excluded.

Especially if the outer conductor, if necessary together with the covering layer, forms a shield, is the even arrangement of its elements on the Surface of the insulation is an advantage. Hence the number the elements per unit area are appropriate on each side of the polygon the same size. Furthermore, is usually a cylindrical construction of the cable to its axis advantageous. A regular polygon as a cross section of the Insulation is an optimal approximation.

Corresponds to the maximum distance of the outside of the Polygons from the one running through its corner points is the imaginary radius of the diameter of the elements the cross section of the cladding layer perpendicular to the cable axis almost circular, as they are on both corners of the Polygons as well as on the elements. Low Deviations are possible, especially if there are several elements the outer conductor on one side surface of the polygon run. If necessary, the diameter running side by side on a side surface Elements also distinguish for an optimal approximation the overlying layer on a circular To achieve shape.

For the purpose of length compensation, for example in the case of bends, Tensile loads or temperature differences of the cable, it is possible that the elements have a corrugation perpendicular the cable axis.

In the following description part is a Embodiment of the invention with reference to the drawing explained in more detail. It shows the cross section through a Coaxial cable according to the invention perpendicular to the longitudinal axis.

The coaxial cable comprises one or more inner conductors 1, one of several elements 2 and a cladding layer 3 formed outer conductor and an intermediate one Insulation 4, such as a solid or foamed Plastic. The outside of the cable is covered by a jacket 5 completed. Wires are useful as elements 2; for the cladding layer is a metal-plastic-metal composite film suitable.

The surface 6 of the insulation 4 has in its Cross section perpendicular to the longitudinal direction of the cable Shape of a polygon, in the example of an octagon. At its corners 7 there is a covering layer 3 and insulation 4 connected by gluing. In this way it is excluded that the individual elements 2 of the Outer conductor between different sides 8 of the Let surface 6 move.

To get a good approximation of the shape of the cladding layer 3 and thus the outer conductor to one to the cable axis to achieve cylindrical symmetry, it is necessary that the position of the cladding layer 3 approximately with that through the Corners 7 defined radius of the polygon. A good approximation can be achieved by the maximum Distance 9 of the sides 8 of the polygon from its periphery is approximately equal to the diameter of the elements 2. In the example, the position of the cladding layer 3 falls Frame the drawing accuracy with the perimeter. In particular in the case of two or more elements 2 however, slight deviations are conceivable on each side 8.

An overlap 10 in the longitudinal direction of the cable running edges of the cladding layer 3 simplifies the Manufacture of the cable. It can be done by a Welding the overlap 10 a waterproof Reach the inside of the cable against moisture.

The result is a coaxial cable even distribution of the outer conductor wires over the Scope, even if the cable bends in its Location are fixed so that the shielding effect and Improve cable assembly.

Claims (10)

Cable, in particular coaxial cable, with an inner conductor (1), an insulation (4) which surrounds the inner conductor (1), an outer conductor which comprises a plurality of elongated elements (2) which run essentially in the longitudinal direction of the cable and which are mounted on the insulation ( 4) rest, as well as with a covering layer (3), which rests against and surrounds the elements (2) of the outer conductor and the insulation (4), characterized in that the cross section of the surface (6) of the insulation (4) is perpendicular is a polygon to the longitudinal direction of the cable and the cladding layer (3) abuts the corners (7) of the polygon. Cable according to claim 1, characterized in that the elements (2) and the cladding layer (3) are electrically conductive and are in electrical contact with one another. Cable according to claim 2, characterized in that the covering layer (3) is a metal foil or a metal-plastic composite foil. Cable according to one of the preceding claims, characterized in that adjoining edges of the covering layer (3) overlap one another. Cable according to one of the preceding claims, characterized in that the covering layer (3) is fixed to the insulation (4). Cable according to claim 5, characterized in that the covering layer (3) is welded or glued to the insulation (4). Cable according to one of the preceding claims, characterized in that the number of elements (2) per unit area on each side (8) of the polygon is the same. Cable according to one of the preceding claims, characterized in that the polygon is a regular polygon. Cable according to one of the preceding claims, characterized in that the maximum distance (9) of the sides (8) of the polygon from its periphery is approximately equal to the diameter of the elements (2). Cable according to one of the preceding claims, characterized in that the elements (2) have a corrugation perpendicular to the longitudinal direction of the cable.

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