EP0619583B1 - Electrical round cable - Google Patents

Description

The invention relates to an electrical round cable according to the preamble of claim 1.

In particular, for reasons of cost and time saving for cables with a larger number of electrical Head who uses insulation displacement technology. For this you use flat connectors with a or several rows arranged side by side Contact elements with one-sided open insulation displacement slots are provided. The individual to be connected electrical conductors are put together with their insulating material in the associated IDC slot pressed in. Cut through the diaphragm walls the insulation and bite into the electrical conductor. Thereby becomes a permanent electrical and mechanical Connection between the electrical conductor and the associated contact element created. Because everyone electrical conductors simultaneously in the respective associated Insulation displacement slots can be pressed this connection technology is a typical one Mass connection technology. For example, it is possible with a 68-pin flat connector all 68 contacts in a single operation to contact. To the advantage of saving time To be able to make full use of them are ribbon cables with one exact grid dimension necessary. The same reasoning also apply to connectors with other connection technology than the insulation displacement technique. This Ribbon cables, however, have the opposite of round cables Disadvantages that they only bend in one plane let and that the possibilities of electromagnetic Shielding are very low. Because, for example it is difficult to put on ribbon cables apply evenly closed screen braid.

To overcome these problems, one has for Insulation displacement technology already used round cables, which are either made up of ribbon cables or Have pre-assembled cable ends like ribbon cables.

Round cables, their conductors or conductor elements (insulated Wires or strands, coaxial cables or twisted Conductor pairs) in the usual way by stranding have been formed into a round cable lead to electrical during the process of locking Connector to problems as below for example in connection with the connection using the insulation displacement technique. After removal the cable sheath and, if applicable, the Cable shields and shrouds fall individual conductors or conductor elements without compliance a certain pitch apart. To the They have to be connected using insulation displacement technology only in some way be aligned side by side so that they Grid dimension of the formed with insulation displacement slots Correspond to flat connector. It is therefore known, cables already at the cable manufacturer or on site to the required length cut to length and with pre-assembled ends Mistake. For this purpose, the individual Veins, if necessary after removing one Cable jacket made of insulating material, at the cable ends aligned in parallel and then either the insulating sleeves of the individual wires thermally glued together or glued in parallel on a film. An example of this is shown in US Pat. No. 4,576,662. A disadvantage of pre-assembly is Cable manufacturer that defined with cut off Lengths must be worked. Furthermore is the parallel alignment and gluing of the Veins very time consuming. In addition, the accuracy of the achievable grid size is only slight.

In order to overcome these disadvantages, one already has Round cables are used, which are formed from a ribbon cable are.

A variant of this is a round cable, which is a Z-shaped or similarly folded extruded or includes laminated ribbon cable. So you get but not really a round cable, but basically only a ribbon cable of smaller width and larger Thickness as unfolded ribbon cable. The result is Preferred bending directions. That is, the bendability this cable is not the same in all directions. You also get a larger overall diameter. That caused the Z-shaped folds Kinking the ribbon cable leads to local insulation expansion. These have changes in the grid size result.

From US-PS 5 053 583 is a ribbon cable several cables embedded in insulating material of different diameters and different Known structure by folding and / or Wrap the ribbon cable and by means of one over it arranged cable sheath in the form of a round cable has been brought. It stays in the middle an air core is left of the round cable or it becomes filled with the pipes of larger diameter, after this has been separated from the ribbon cable by cutting have been.

In another variant, which from DE-83 22 828 U1 is known is extruded or laminated Ribbon cable spirally around a carrier element Circular cross section wrapped and thereby into one Round cable processed. The disadvantage here is that the diameter of the round cable is much larger than that of comparable normal round cables. Furthermore this cable construction leads to less flexibility.

Another variant, as described in DE-83 07 764 U1 is known, consists of a round cable that an extruded ribbon cable constricted into a round shape there is a metallic on the circumference Screen is wrapped by an insulating Outer jacket is surrounded. Also with this round cable one arrives at a diameter that is larger than that of a comparable normal round cable. Because in that the individual conductors at the extrusion process together into one tape-shaped insulating material are embedded, they are much worse relative to each other move as independent single wires a normal round cable. As a result, leaves there is an air core in the middle of this round cable practically not avoid.

All known round cables with an extruded or laminated ribbon cables, is also peculiar that they have no deviations allow of the fixed grid size.

In the DE-U-91 13 530.3 is an electrical round cable with a ribbon cable choked to a round shape several arranged in a band next to each other electrical conduction elements have been proposed whose line elements by means of weaving threads and / or woven ribbons held together in ribbon cable form are.

The diameter of this cable is practically not larger than that of a comparable normal Round cable. It has the same flexibility as a comparable normal round cable and leads to a much larger grid tolerance than known round cables constructed with ribbon cables.

Because in that the individual line elements not combined by lamination or extrusion but by weaving into a ribbon cable, there is much greater flexibility of the ribbon cable and a much greater freedom of movement of the individual line elements within of the ribbon cable than when using laminated or extruded ribbon cables. The freedom of movement of the individual management elements of the woven ribbon cable allows for gagging too a round cable that no larger cavities arise and a minimum diameter of the round cable is achievable. By weaving the whole Ribbon cables are created when the cable is gagged no high expansion or compression forces as with extruded or laminated ribbon cables. The flexibility corresponds to this round cable that of one of stranded individual elements assembled cable. The yard goods of this Round cables can be cut at any point and shows after opening the Round cable again the originally woven ribbon cable, however with the larger one already mentioned Freedom of movement for the individual line elements. On the one hand, this allows the individual line elements in the leadership ridges of for IDC-equipped flat connectors simple and easy to position accurately. On the other hand, this allows connection in insulation displacement technology not only in one Grid dimension but in a grid dimension range of for example 0.05 to 0.2 inches (about 1.25 mm to 5 mm).

The weaving of the individual line elements too a ribbon cable means a technical effort, which you cannot apply for some types of cables would like to. The usual for the weaving threads or ribbons Material is not suitable for electrical interference the electrical properties of the cable, as is often desired.

In accordance with the preamble of claim 1, FR-A-2 shows 457 548 an electrical round cable, in which the ribbon cable through Folds into a circular shape in cross section. By Enclose a central conductor with a circular folded ribbon cable and by applying another circularly folded ribbon cable becomes a coaxial cable arrangement with several line element layers created, these layers spaced apart in the radial direction are.

EP-A-0 487 354 shows an electrical ribbon cable in which a carrier tape is used, which contains PTFE.

EP-A-0 457 424 is an electrical, flexible ribbon cable known in the case of a carrier tape made of dielectric polymer material line elements are glued in parallel with the help of an adhesive are, the spacing between adjacent line elements larger are as the diameter of the pipe elements. From the drawings this publication shows that the adhesive is the line elements embeds over about half of its circumferential area.

The present invention aims to provide a round electrical cable be made, which can be produced with little technical effort is and the possibility of better influencing the electrical Properties of the round cable opened.

This is the case with an electrical ribbon cable specified type achieved by the Characteristic features of claim 1.

Due to the use of a soft foldable band-shaped Carrier tape for the line elements and because the individual line elements not in carrier material embedded but only via a defined one Part of its circumference on one side of one Carrier tape are fixed, they can be just as easily as just together stranding line elements to a round cable gag. This is also made possible by the fact that the individual line elements with mutual Distance from each other are fixed on the carrier tape. It has neighboring line elements a mutual distance from each other that is at least is as large as the maximum diameter of these line elements. Furthermore, the individual line elements over a range of 5-40% of theirs Fixed on the outer circumference of the carrier tape. Especially a circumferential range of about 20% is preferred. This makes the carrier tape highly foldable with the line elements attached to it and is gagging the cable into a round cable a fold in both Normal directions of the carrier tape possible. The correct insertion of the individual line elements in the individual connection chambers of a connector or in a template, with the help of which the individual Round conductors on the grid spacing of such Connector is brought by the large and defined distances between the line elements very easy.

It is preferred to use carrier material which at least in the longitudinal direction of the line elements is compliant. This can result in a Cable, the end portion for the purpose of connecting is open to a connector, the individual Management elements in the area of the transition from the round cable structure to the open ribbon cable structure move against each other in the longitudinal direction. An offset of the free ends of each Pipe elements in their longitudinal direction are made possible. This eliminates mechanical stresses and Loads in the transition area, such as those with round cables arise from ribbon cables with in Insulation material embedded pipe elements are avoided.

There can be multiple ribbon cables on separate Carrier tapes are fixed to a common one Round cables are choked, for example better handling and grouping of the individual Line elements.

If you use carrier material for the carrier tape, that (also) in the transverse direction of the line elements is compliant, one can be a particularly large one Flexibility in connecting the Line elements of the round cable according to the invention on connectors with different pitch regarding their connection or contact elements to reach.

The soft carrier material of the carrier tape enables an easy disconnection of the ribbon cable Single wires for the purpose of connecting to the Contact elements of a connector. With round cables, which are built with ribbon cables of conventional type are, whose line elements are in one Insulating material with comparatively high rigidity and strength is embedded is one Separation in single cores much more difficult.

The carrier tape according to the invention should preferably have textile-like softness, so that a easy folding in both directions of the carrier tape is possible without a disability like when using conventional ribbon cables with in Insulation material embedded pipe elements.

A particularly preferred measure is for the carrier tape Material used in which the electrical Influencing properties of the cable Can embed particles. Preferred embedding materials are electrically conductive materials like carbon, copper, silver, aluminum and Mum metal (e.g. 74-77% Ni, 5% Cu, 3-4% Mo or 1.5-2% Cr, rest Fe). You can also use several of these materials embed together in the carrier tape material. A degree of filling of the embedded Material according to the desired electrical Effect chosen. A preferred fill level is Range of 20-70 percent by volume of the embedded Material with respect to the carrier tape material, and a degree of filling of about 40% is particularly preferred. Dielectric materials, such as. Glass particles to be embedded.

Generally speaking, the degree of filling should be in one Size range, on the one hand the electrical resistance between the line elements is still sufficiently large, on the other hand a sufficient shielding and damping effect is achieved. The dampening effect has resonance effects within a cable, namely between individual line elements and / or line elements and an umbrella and / or more Shield against. With line elements in the form of coaxial cables, for example, standing waves arise between adjacent coaxial cables.

These can be caused by the dampening effect of Carrier tape material embedded electrically conductive Particles are practically absorbed. Such There are no signs of resonance Eliminate usual metallic screens, which the Line elements of the round cable or groups surrounded such line elements. Such umbrellas protect against disturbing external radiation the line elements or from disruptive radiation from the line elements to the outside. You can but not disturbing resonance phenomena of the above Eliminate kind that are between neighboring Play line elements.

The selection of the one embedded in the carrier tape material Filling material depends on whether the Attenuation more in the low frequency and / or more in high-frequency range should be effective. filling material like Mumetall, that about eddy current losses is effective, has a damping effect in the lower frequency range, little in the upper frequency range. filling material like carbon, copper and silver is at effective at higher frequencies, less at low Frequencies.

Particularly expanded is the carrier tape material PTFE (polytetrafluoroethylene) preferred.

Other materials that are particularly good as Carrier tape materials are suitable:

PTFE, polyester, polyurethane, PVC, elastomers, silicones, Natural rubber, coated fabrics (coating with one of the previously specified materials), each in soft form and preferably in cross and / or longitudinal direction stretchable.

The conductor elements can be insulated Wires, strands, twisted pairs, coaxial cables and / or trade so-called tri-lead. Tri-lead are coaxial cables with a non-concentric cross-section. There is a round inner conductor from a concentric dielectric made of insulating material surround. On two opposite sides of the Outer circumference of the concentric dielectric a so-called runs in the longitudinal direction of the cable Drain wire. To the concentric dielectric and the two drain wires around is a screen protector arranged from electrically conductive material. This is surrounded by a cable jacket made of insulating material.

The ribbon cable gagged to round shape can be of at least an outer jacket made of insulating material be surrounded. Between the choked to a round shape Ribbon cables and the outer jacket can be at least one electric screen made of wound or braided Wire or from an electrically conductive Material or metallized plastic tape arranged be.

Fig. 1

ein Bandkabel in Form mehrerer im Abstand voneinander an einem Trägerband fixierter Leitungselemente; und

Fig. 2

ein Rundkabel, das durch Verwürgen des in Fig. 1 gezeigten Bandkabels erhalten worden ist.

The invention will now be explained in more detail using a preferred embodiment. The drawings show:

Fig. 1

a ribbon cable in the form of a plurality of line elements fixed at a distance from one another on a carrier tape; and

Fig. 2

a round cable obtained by strangling the ribbon cable shown in FIG. 1.

Fig. 1 shows a ribbon cable 11 of the invention Kind with a carrier tape 13 made of a soft, supple material, preferably expanded PTFE with a number of pipe elements on one side 15 in parallel with each other Distance from each other is fixed. Each tion element is only with a relatively small Area of its outer circumference on the carrier tape 13 fixed.

It is in the illustrated embodiment line elements of the type already mentioned Tri-lead. It is a kind of coaxial cable with an inner conductor 17 by a Dielectric 19 is surrounded concentrically. On two opposite sides of the outer circumference of the Dielectric 19 each has a drain wire 21. The dielectric 19 and along it running drain wires 21 are of a metallic or metallized screen film 23 surround. This in turn is from a cable jacket 25 encased in a plastic material. The Drain wires 21 are in electrical contact with the screen film 23. They are provided because of it is lighter, not the screen film 23 but the Drain wires 21 at the cable end with the connecting or Contact elements of an electrical connector connect.

The mutual distances between adjacent line elements 15 are at least as large as the maximum diameter of a single line element. This ensures that the carrier tape 13 is arbitrary can be folded without being too narrow neighboring line elements is hindered.

As such, the ribbon cable 11 according to FIG. 1 can be used for Applications are used where it is on the Softness and good foldability of a ribbon cable arrives. It is particularly suitable for that Strangling to a round cable, as shown in Fig. 2 is shown.

The round cable shown in cross section in FIG. 2 contains a gagged ribbon cable 11 with a Carrier tape 13 on which a number of signal cables 27 in the form of tri-lead cables of the type shown in FIG. 1 Kind is fixed. A middle section of the Carrier tape 13 is located in the middle between the signal cables 27. An outer area of the carrier tape 13 encloses the signal cable 27. Das Ribbon cable 11 is concentric from a binder 29 surrounded by which the gagged ribbon cable in Round shape is kept. In the preferred shown In the embodiment, the binder 29 is concentric surrounded by a shield 31. This is optional and consists, for example, of a Screen braid or a screen film made of or with electrically conductive material. The shield 31 is in turn surrounded concentrically by a binder 33. This is from a jacket 35 made of insulating material envelops. The coat is also optional.

The material for the carrier tape is, as already mentioned, expanded to a particularly preferred extent PTFE used. For the individual conductors and layers the signal cable 27, for the binders 29, 33 and for the shield 31 and the jacket 35 are for these purposes common and known materials used, which is why not listed here will need.

Claims (11)

1. A round electrical cable comprising at least one ribbon cable (11) which is brought into a round shape and has a plurality of electrical line elements (15; 27) juxtaposed in the form of a band by mans of a carrier (13), with the carrier being constituted by a foldable carrier band (13) to which the line elements are fixed along part of their circumference, with the line elements (15) being disposed on at least one side of the carrier band (13) with a mutual minimum spacing from each other which is at least as large as the maximum line element diameter,
   characterized in
   that the ribbon cable is urged together to form the round cable by folding of the carrier band, and in that the line elements (15) are fixed to the carrier band (13) along a circumferential portion of 5 % to 40 %, preferably about 20 %.
2. The round electrical cable of claim 1,
   characterized in that the carrier band (13) is of textile-like softness.
3. The round electrical cable of claim 1 or 2,
   characterized in that the carrier band (13) is composed with expanded polytetrafluoroethylene (PTFE).
4. The round cable of any of claims 1 or 2,
   characterized in that the carrier band (13) is composed with material selected from the material group consisting of solid PTFE, polyester, polyurethane, PVC, elastomers, silicones, natural caoutchouc, fabrics coated with one of the aforementioned materials, each in foldable form.
5. The round cable of any of claims 1 to 4,
   characterized in that the material of the carrier band (13) has particles of electrically conductive or electrically effective material embedded therein.
6. The round cable of claim 5,
   characterized in that the electrically conducting material, depending on the desired overall resistance of the carrier material, is embedded in the carrier band material with a filling degree in the range of 20 to 70 per cent by volume, preferably about 40 per cent by volume.
7. The round cable of claim 5 or 6,
   characterized in that electrically conductive material is embedded selected from the material group of carbon, copper, silver, aluminium, and mu-metal.
8. The round cable of any of claims 1 to 7,
   characterized in that the carrier band (13) is resilient in the longitudinal direction and/or transverse direction of the line elements (15; 27).
9. The round cable of any of claims 1 to 8,
   characterized in that the line elements (15; 27) comprise insulated wires (17, 19; 27) , strands, twisted conductor pairs, and/or coaxial cables.
10. The round cable of any of claims 1 to 9,
    characterized in that the ribbon cable (11) urged into a round shape is enclosed by a round outer jacket (35).
11. The round cable of claim 10,
    characterized in that between the ribbon cable (11) urged into a round shape and the outer jacket (35) there is disposed at least one electrical shield of wound or braided wire or of an electrically conductive metal or plastics band.

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