DE19703797A1 - Connector device for multiple conductor insulated flat band cable - Google Patents

Abstract

The connector device has a housing (16) which on taking up a coupling position can be fixed at any desired position along the flat band cable (2). The housing (16) has two housing parts (17,18) which are arranged on opposite sides of the cable (2) and can be tightened together clamping the cable (2) between them. At least one housing part has at least one through-contact (27) which can be connected to an electric lead (12) passing through. This contact electrically contacts one of the conductors (3) of the cable by penetrating the insulating cladding (4) of the cable. At least one of the housing parts proceeds via an electrically conductive distributer element (24), which is connected on one hand to the lead (12). On the other hand, several holder parts associated with different cable conductors, for each penetrating contact, are provided. A respective penetrating contact (27) coupled to the associated holder part (26) can be laid relative to the housing (16) in a contacting device (34) to the associated cable conductor.

Description

The invention relates to a connection device for multi-core insulated ribbon cable, with one taking a dome position in any longitudinal position along the flat Ribbon cable-definable housing, which ent two to each other opposite flat sides of the ribbon cable attachable and by clamping the intermediate ribbon cable has other clampable housing parts, at least one Housing part at least one to a further elek tric conductor connected or connectable has contact contact, which penetrates the insulating Cable sheath with one of the cable wires of the ribbon cable elec is trically contactable.

Connection devices of this type go for example from the Publication "Bussysteme", Georg Färber, R. Oldenbourg Ver lay, Munich, 1984, pages 34/35. You have two housing parts designed as plug parts, one of which  one of the number of cable cores of the ribbon cable corresponds Adequate number of penetration contacts and the Contacting the ribbon cable from opposite sides forth be pressed onto the cable, the penetration Cut the contacts into the cable sheath and make contact with the Cable leads. Each penetration contact is marked with an egg nem continuing electrical conductor in connection, wherein these conductors in turn combined into a ribbon cable could be. In this way, an Ab branch off from the first-mentioned ribbon cable.

In the field of pneumatics, there are often so-called Ven Tilt stations in which several electromagnetically operated Valves are grouped like batteries. Such a valve station emerges, for example, from DE 42 30 414 A1. The Actuation signals for the individual solenoid valves are in serial or parallel signal transmission via a bus guided. Ins are suitable as inserts for a parallel bus special ribbon cable, it would be conceivable a lot core ribbon cable on the electromagnetic actuation devices of the individual valves and in the loading range of each actuator using a connection device of the type mentioned an Ab grabbed the Si leading to the respective actuator gnale.

A disadvantage when using a connection device of the known Art is, however, that contact with all Ka loading of the ribbon cable takes place. When assembling  it then becomes difficult to correctly select the one associated with the further actuating device to be connected to hit electrical conductor. In addition, the end do not use blind cable, which can lead to operational impairments can.

It is therefore an object of the present invention to provide a to create closing device of the type mentioned, the for a ribbon cable, select a simple contact ter types of cables.

To solve this problem it is provided that at least one of the housing parts via a fixed alignment, has electrically conductive distributor element, on the one hand is connected or connectable to the continuing manager and on the other several, in the coupling position of the Different cable cores of the ribbon cable supplied ordered stops for one penetration contact each are provided, with a respective, to the assigned Hal tepartie coupled penetration contact relative to the housing in a contacting direction towards the assigned cable core is relocatable.

Now it is possible to do a continuing electrical Head assigned distribution element with one as required selected cable core of the variety of cable cores of the ribbon to contact cables. Always in the contacted state the signal flow through the distributor element and this one ordered continuing electrical conductors regardless of  with which cable wire contact is made. The number the further provided on the connection device This means that managers can be tailored to actual needs which, in the case of the control of a solenoid valve two further electrical conductors can suffice, of which at least one to a distributor element according to the invention is ordered.

The arrangement is preferably such that the First, the housing at the desired location along the flat can set ribbon cable in a coupling position without already making contact with one of the cable cores det. When the coupling position is established, a is then switched off selected penetration contact activated by, for example wise using a suitable press tool, rela tiv is shifted to the housing of the connection device until it penetrating the cable jacket with the assigned Ka loader comes into contact. Here lies over the holding section electrical contact with the distributor element.

Thus, the possibility for a selective contact is ge that makes it possible to use only certain cable cores To contact a ribbon cable and therefore only the these cables running signals to the further pass on electrical conductor and thus, for example, the Feed actuator of a solenoid valve.

This means that several can be connected to a ribbon cable Connection devices abge the desired cable wires  be gripped. However, there is definitely the possibility same cable over several connection devices wire of the ribbon cable to contact if necessary should be connected actuators at the same time to activate. When using the connection device in As part of the control of valve stations insists on this For example, the possibility of the number of valves to enlarge a respective valve station. Another before part of the connection device is its grid independence.

Advantageous developments of the invention are in the Unteran sayings listed.

The housing part assigned to a respective distributor element conveniently has in the area of each stop of the distributor element via a receiving opening for one Penetration contact that the relevant penetration con can record at least partially. If the penetration supply contact, which is advantageous for avoiding short circuits is always completely sunk in the receiving opening net, the receiving opening nevertheless enables insertion Ren an actuating tool to the selected penetration to act upon contact and if necessary in contact tation direction that the contact with the assigned cable wire is done.

It is possible that the at least one distributor element in unbe Provide piece condition, the holding parts are not are equipped with penetration contacts. It can then be in  Knowledge of the contacting task of a selected assembly with an appropriate number of penetration contacts he consequences.

Another development provides that at least a part and preferably all of the holding parts of a respective one gene distribution element constantly with penetration contacts pieces that are usually an unconfirmed ineffective Take a position that the housing attaches to the flat ribbon cable allows without the penetration contacts in cut the cable jacket. According to the coupling position is then by pressing the desired or by urgent contacts a shift to an actuated effective Position possible in which the contact is made.

Compared to an embodiment in which the penetration supply contacts slidably mounted on the distributor element are a more cost-effective design if the Piercing contacts made in one piece with the distributor element are formed. In this case, the required publishers penetration contacts due to plastic deformation, especially by bending the assigned stops he consequences. The required path of deformation is particularly in one provided in multiple ways when the stops are part an essentially meandering shaped distributor element are mentes.

Instead of granting only in the direction of contact Another type of construction sees the relocation option  closing device that the at least one penetration contact adjustable at right angles to the contacting direction the distributor element is arranged so that it is through a multiple shifting along the distribution element in the area egg position the selected cable wire.

The invention based on the accompanying drawing tion explained in more detail. The individual shows:

Fig. 1 shows a first design of the present invention to circuit device in a perspective explosi onsdarstellung,

Fig. 2 shows a cross section through the connecting device of FIG. 1 according to section II-II direction in a coupling position with partially contacted penetration contacts,

. 3 shows a further design of the connection device in a schematic perspective view where at the sake of clarity only one of the two housing parts is usually present Fig mapped dot-dash lines,

Fig. 4 shows a cross section through the arrangement of FIG. 3 in the region of the penetration contacts on the section line IV-IV,

Fig. 5 shows a further design of the present invention to a circuit device in FIG. 3 entspre sponding representation with transversely displaceable tierungsrichtung to Kontakt penetrating contacts,

Fig. 6 shows a further design of the connection device in a partial cross-sectional view accordingly Fig. 2, wherein the distributor element in the manner of an exploded view separately showing ge and dash-dotted lines, the area occupied in the mounted state position is indicated,

Fig. 7 is a rear view of a construction in accordance with Fig. 6 coming for use distributor element with a view direction according to the arrow VII, and

Fig. 8 is a corresponding to FIG. 7 rear view of the arrangement of FIG. 6, wherein a housing part is shown equipped with three United divider elements.

The individual figures show a partially only schematically interpreted electronic control device 1 which, depending on a control program stored in it or in a higher-level central control, sends signals through a ribbon cable 2 which is only part of its length. The ribbon cable 2 contains a plurality of parallel to each other in a plane, electrically conductive cable wires 3 , which are surrounded by a cable jacket 4 made of insulating material. The individual cables veins 3 with the section of the cable sheath 4 assigned to them practically form individual cables which are connected to one another via narrow web-like areas of the cable sheath in such a way that they tear away from one another and split as required.

The ribbon cable 2 runs, for example, past a plurality of pneumatic valve units 5 , only one of which is schematically indicated in FIG. 1. Each of these valve units 5 has at least one and, for example, two actuating devices 6 operating on an electromagnetic basis for controlling a main valve 7 of the valve unit 5 . The actuators 6 are expediently solenoids or solenoid valves.

For example, each actuator 6 has two contacts 8 , 9 and 8 ', 9 , one of which Kontaktkon clock 9 is a ground connection and the other terminal contact 8 , 8 ' is a signal connection for feeding an actuating signal.

The contacts 8 , 8 ', 9 are supplied with their electrical signals via electrical conductors, which are referred to in the present case as further electrical conductors 12 . This secondary game in accordance with three electrical conductors 12 are under switching of the electrical connection device according to the invention connected to the ribbon cable 2. 13 The connection is done correctly such that each of the further electrical conductors 12 are connected to exactly the cable wire intended for him, which carries the signals that are intended for the special valve unit 5 . Here, the one cable wire 3 is a ground wire 14 , while it is at the contacted cable wires 3 to signal wires 15 , 15 'han delt.

The in the embodiment shown uncontacted cable wires 3 are contacted elsewhere along the ribbon cable 2 to establish a selective connection to one or more other valve units. At a respective point, a connection device of the type shown is in turn attached, via which the required signals including the actuation energy from the continuous passage of the ribbon cable 2 can be branched off.

In this way, the valve units 5 receive from the control device 1 the electrical signals required for their operation.

The connection device 13 has a housing 16 which, for example, comprises two housing parts 17 , 18 . For the sake of simplicity, only one housing part 17 is indicated in FIGS. 3 and 5.

The two housing parts 17 , 18 are designed such that they can be releasably attached to the two opposite flat sides 21 , 22 of the ribbon cable 2 . You have for this purpose on the ribbon cable 2 facing Monta sides 23 have a contour that corresponds to that of the flat sides 21 , 22 of the ribbon cable 2 , so that a plurality of mutually parallel groove-like recesses is present. The housing parts 17 , 18 can be releasably clamped together using suitable connecting elements 20 , for example screws or snap-in connecting elements, with the interposition of the ribbon cable 2 . The various individual cable-like sections of the ribbon cable 2 are immersed in the above-mentioned recesses on the mounting sides 23 and are fixed both positively and positively.

In this way, the housing 16 of the device 13 may be set at practically any point along the flat ribbon cable 2 . The connection point is therefore independent of a predetermined connection grid. The corresponding position of the housing 16 is referred to as the coupling position.

At least one of the housing parts 17 , 18 of a respective Ge housing 16 has at least one distributor element 24 . The ses is preferably arranged relative to the housing 16 in a fixed alignment, so it assumes a fixed relative position to the respective housing part 17 , 18 . It consists of electrically conductive material, preferably metal.

The distributor elements 24 can be designed differently. For example, each is essentially rigid, strip-like elements that can be referred to as manifolds.

The distributor elements 24 are arranged on and preferably in the associated housing parts 17 , 18 in such a way that they run parallel to the plane of expansion of the ribbon cable 2 and in particular extend transversely and preferably at right angles to the longitudinal axis 25 of the ribbon cable 2 . In this way, a respective distributor element 24 extends over a multiplicity of cable cores 3 of the ribbon cable 2 .

Each distributor element 24 has a plurality of holding parts 26th They each serve to hold a penetration contact 27 . These penetration contacts 27 are, for example, elongated elements which are oriented at right angles to the plane of expansion of the ribbon cable 2 and which have a contact part 28 at their front end facing the ribbon cable 2 . This contact section 28 is designed such that it can penetrate the cable sheath 4 of the ribbon cable 2 and can make electrical contact with one of the cable cores 3 when the associated penetration contact 27 is subjected to a corresponding force.

For example, a respective contact section 28 , as can be seen, for example, from FIG. 6, has two cutting sections 32 arranged in a fork-like configuration, which define a tapering contacting contour 33 , between which the contacted cable wire 3 is additionally clamped. One speaks here of a so-called insulation displacement technique.

The arrangement is such that a respective penetration contact 27, which is coupled to a holding part 26 , can be displaced relative to the associated housing part 17 , 18 in the direction of the ribbon cable 2 . The direction of displacement already defined is referred to as contacting direction 34 .

The distributor elements 24 including their holding parts 26 are positioned such that in the coupling position of the housing 16 of a respective holding part 26 in the contacting direction 34 one of the cable wires 3 of the ribbon cable 2 is opposite. This allows a respective Durchdringungskon clock 27 while maintaining an electrical contact connection to the distributor element 24 optionally in an unactuated inactive position 31 and an actuated effective position 35 position relative to the distributor element 24 . In the unactuated inactive position 31 are the Durchdringungskon contacts 27 out of engagement with the ribbon cable 2 and their con tact part 28 is arranged at a distance from the cable jacket 4 . In the actuated effective position, they are contacted with a cable wire 3 in the manner described.

It can now be a selective contacting a jewei term distribution element 24 with a selected cable wire 3 by the corresponding connection is made via a penetration contact 27, which is in contact with the holding part 26 which is opposite the desired cable wire 3 against the contacting direction 34 . The contacting is done simply by the fact that the penetration contact 27 in question is moved from the unactuated into the actuated position by being acted upon with a suitable actuating tool 36 .

The connection of the distributor elements 24 contacted in this way to the further electrical conductors 12 takes place, for example, with the intermediation of a plug connection device 37 . Each distributor element 24 ends at one end in a tongue-shaped first connector element 38 , to which a complementary second connector element 42 can be connected, which is connected to one of the further electrical conductors 12 in connection. All second plug connec tion elements 42 are advantageously combined in a common plug 43 which is detachably attachable to the corresponding grouped first connector elements 38 .

In this way, a very specific cable core 3 can be connected to one of the connection contacts 8 , 8 ', 9 . The two Mas seanschluß 9 can be connected to a common electrical conductor 12 .

In the exemplary embodiment according to FIG. 1, two distribution elements 24 are arranged on one housing seteil 17 and extend next to one another. One distributor element 24 , 24 'serves to transfer the grounding potential, which runs in the flat ribbon cable 2 in the ground wire 14 . Since all Ventileinhei th 5 can be connected to the same ground wire 14 , and since the same cable wire as ground wire 14 can always be used, it is sufficient if the corresponding distributor element 24 , 24 'has only a small number of holding parts 26 for through contacts 27 having. For example, two immediately adjacent holding portions 26 are provided, which are assigned to an edge area of the ribbon cable 2 . It would be so even conceivable a penetration contact 26 rigidly to the zugeord Neten distributor element 24, 24 to apply 'if it is ensured that always the same cable wire is used as a ground wire.

All other cable wires 3 are shown in FIG. 1 individual holding lots 26 which are common to another Ver divider element 24 , 24 ''. This is used to select one of the desired contact wires 15 .

About a housing part 17 equipped in this way, one of the actuating devices 6 could already be controlled. However, since the valve unit 5 to be operated has a second actuation unit 6 , a further third distributor element 24 , 24 '''is present, which is comparable to the aforementioned second distributor element 24 , 24 ''and is also designed to make contact with a contact wire 15 'Of the ribbon cable 2 is used. This third distributor element 24 , 24 '''is located in or on the second housing part 18 for space reasons.

Instead of a connector 37 , the connection to the actuators 6 can also be done via soldered or screwed wiring. It would also be possible to make a design so that the continuing conductors 12 are not designed as in the present case in the form of flexible lines, but as fixed conductors which are integrated in a housing or are part of a printed circuit board. It would also be conceivable to design the connecting device 13 in such a way that it is a direct component of an actuating device 6 or another component to be controlled.

All of the embodiments shown have in common that the housing part 17 , 18 equipped with a distributor element 24 has a number of receiving openings 44 corresponding to the number of holding parts 26 , which penetrate the relevant housing part 17 , 18 transversely in the contacting direction 34 . The existing penetration contacts 27 are at least partially arranged in the respective associated opening 44 . On the opposite side of the mounting side 23 opening 45 of a respective receiving opening 44 , the selected penetration contact 27 can also be acted upon for contacting if it is arranged completely within the opening 44 .

Several receiving openings 44 can also be combined into a common, for example slot-like receiving opening (not shown).

In the embodiment according to FIGS. 1 and 2 are the Ver divider elements 24 in the manner of strips formed hole, the strip plane is parallel to the extension plane of the flat cable 2 and the holes 46 form the holding parts. Be the relevant hole 46 is of a penetration contact 27 sets, the dimensions of which are selected so that it is displaceable relative to the distributor element 24 , but nevertheless maintains sufficient safe electrical contact with the distributor element 24 in any displacement position. The holes or their edges thus form bearing portions 48 for the Durchdringungskon contacts 27th Basically, two modes of operation are now possible. The connection device 13 could be provided unequipped, at least the supply signals used for tapping the actuation supply signals 24 are not pre-equipped with penetration contacts 27 . The assembly takes place only after the coupling position of the housing has been established, by inserting and making contact precisely in those receiving openings 44 through penetration contacts 27 whose associated cable core 3 is to be tapped.

In contrast, equipment would also be possible in that all holding parts 26 are pre-equipped with penetration contacts 27 , which initially assume the unactuated inactive position 31 explained above. Such a design is shown in FIGS. 3 and 4 in connection with one of the type of support of the penetration contacts 27 .

Also in the construction according to Fig. 3 and 4 are the Haltepar tien formed as bearing parts 48 26) wherein one of the number of wires 48 is fitted 3 corresponding number of storage lots displaceably mounted with penetration contacts 27th The exemplary distributor element 24 is designed like a comb and has a transversely to the longitudinal axis 25 of the flat ribbon cable 2 , electrically conductive support strip 52 , which carries an at least the number of cable cores 3 corresponding number of parallel to the ribbon cable 2 pointing bearing arms 53 which form the holding portions 26 . A penetration contact 27 is mounted displaceably in the contacting direction 34 on each bearing arm 53 . The United sliding bearing is realized, for example, in that each of the penetration contact 27 has a U-shaped guide portion 54 which engages around the associated bearing arm 53 so as to be longitudinally displaceable.

From Fig. 3 it is clear that the number of holding parts 26 may well be greater than the number of cable wires 3rd However, it is then sufficient to equip only those holding parts 26 which are actually also required when using the connection device 13 .

Fig. 3 shows a penetration contact 27 'in the actuated position 35 , in which it is compared to the other penetration contacts 27 in the direction of the ribbon cable 2 and is pressed into this.

Since in the arrangement according to FIGS. 3 and 4, the overall even if strip-like distributor elements 24 are aligned so that their extension planes are perpendicular to the plane of expansion of the ribbon cable 2 , they allow a high packing density of distributor elements in a confined space.

In all the embodiments described so far, the penetration contacts 27 can only be moved in the contacting direction 34 , that is to say transversely to the plane of expansion of the ribbon cable 2 . In the design of FIG. 5, an additional degree of freedom is given by the penetration contacts 27 accelerator as double arrow 55 are perpendicular to the contacting direction 34 in the width direction of the flat cable 2 with respect to the supplied arrange th housing part 17, 18 adjustable. In the game Ausführungsbei this is the distributor element 24 is formed as a guide rail 56 on which the at least one penetration contact 27 is slidably mounted in the adjustment direction 55 mentioned. This allows the assignment of Durchdringungskontak tes 27 to a cable wire 3 without removal from the housing 16 change by the relevant penetration contact 27 along the guide rail 56 to the cable wire 3 to be tapped ver.

It goes without saying that a plurality of penetration contacts 27 can also be arranged on the guide rail at the same time.

In the embodiment according to FIGS . 6 to 8, the penetration contacts 27 are formed in one piece with the associated distributor element 24 . This enables a particularly simple manufacture. The displacement of the penetration contacts 27 required for contacting takes place by deforming the distributor element 24 as indicated at 57 in FIG. 6. The distributor bar 24 is provided in the region of the holding parts 26 with predetermined deformation points 58 , which can be shifted in the direction of contact 34 when applying a compressive force with a suitable actuating tool, for example by means of a screwdriver, while simultaneously displacing the penetration contacts 27 . The distributor element 24 is pressed or dented in the deformed area.

In order to have sufficient deformation path available, which enables reliable contacting with the ribbon cable 2 , the distributor element 24 has an overall length dimension which is greater than the outer length. This is achieved, for example, by a meandering course of a support strip 52 having the holding parts 26 . The individual meander sections can be deformed, the necessary deformation path being provided by stretching these curved sections.

In all of the exemplary embodiments, the second housing part 18 of the connection device 13 can easily be an integral part of another component, for example a component of the valve unit 5 or other apparatus or machine.

A certain logic function can also be realized by the described construction of the connection device 13 . Thus, several valves can be addressed simultaneously via a signal or who can implement, for example, an AND function or an OR function, so that an actuating device 6 only switches when simultaneously using a plurality of tapped cable wires 3 or a selection of cable wires Si gnale are transmitted.

Appropriately, the number of distributor elements per connection device corresponds to the number of cable cores 3 that are to be accessed. Each distributor element, insofar as it is used for the transmission of actuation signals, is preferably equipped with at least as many holding parts 26 as the ribbon cable has 2 cable wires 3 .

With the help of the connection device according to the invention especially electromagnetically operated pneumatic valves control, which are arranged in series and for example Be are part of a valve station.

Claims (14)

1.Connection device for multi-core insulated flat ribbon cable ( 2 ), with a housing ( 16 ) which can be fixed in any longitudinal position along the ribbon cable ( 2 ) while taking a coupling position, the two ( 2 ) on the opposite flat sides ( 21 , 22 ) of the ribbon cable ( 2 ) which can be attached and clamped together by clamping the intermediate ribbon cable ( 2 ) together, housing parts ( 17 , 18 ), at least one housing part ( 17 , 18 ) having at least one penetrating contact ( 27 ) connected or connectable to a further electrical conductor ( 12 ), the penetration of the insulating cable sheath ( 4 ) with one of the cable cores ( 3 ) of the ribbon cable ( 2 ) is electrically contactable, characterized in that at least one of the housing parts ( 17 , 18 ) has an electrically conductive distributor element ( 24 ) which for one connected to the continuing conductor ( 12 ) or ve rbindbar and on the other several, in the coupling position of the housing ( 16 ) different Ka loader ( 3 ) of the ribbon cable ( 2 ) associated holding parts ( 26 ) are provided for each one penetration contact ( 27 ), with a respective, to the assigned Holding section ( 26 ) coupled penetration contact ( 27 ) can be displaced relative to the housing ( 16 ) in a contacting direction ( 34 ) to the assigned cable core ( 3 ). 2. Connection device according to claim 1, characterized in that the distributor element ( 24 ) is a distributor strip. 3. Connection device according to claim 1 or 2, characterized in that at least one housing part ( 17 ) has at least two distributor elements ( 24 ). 4. Connection device according to one of claims 1 to 3, characterized in that a respective distributor element ( 24 ) is connected to a housing-fixed first connector element ( 38 ) to which via a complementary second connector element ( 42 ) a further electrical conductor ( 12 ) is detachably connectable. 5. Connection device according to one of claims 1 to 4, characterized in that the at least one distributor element ( 24 ) associated housing part ( 17 , 18 ) in the region of a respective holding portion ( 26 ) in the contacting direction ( 34 ) transverse through opening ( 44 ) for a penetration contact ( 27 ). 6. Connection device according to claim 5, characterized in that each holding section ( 26 ) is assigned a separate own receiving opening ( 44 ). 7. Connection device according to one of claims 1 to 6, characterized in that at least one distributor element ( 24 ) is equipped with a plurality of penetration contacts ( 27 ) which independently of one another in the contacting direction ( 34 ) between an unactuated inactive position ( 31 ) and an actuated active position ( 35 ) are displaceable, they are in the inactive position ( 31 ) out of engagement with the ribbon cable ( 2 ) and are contacted in the active position with the associated cable core ( 3 ). 8. Connection device according to one of claims 1 to 7, characterized in that the holding parts ( 26 ) are formed as Lagerpar tien ( 48 ) on which the penetration contacts ( 27 ) are slidably mounted. 9. Connection device according to claim 8, characterized in that the distributor element ( 24 ) is comb-shaped and has a plurality of mutually parallel bearing arms ( 53 ) on which the penetration contacts ( 27 ) are slidably mounted. 10. Connection device according to one of claims 1 to 7, characterized in that the distributor element ( 24 ) is designed in the manner of a perforated strip, the holes ( 46 ) form bearing parts ( 48 ) which are penetrated by the penetration contacts. 11. Connection device according to one of claims 1 to 7, characterized in that the penetration contacts ( 27 ) and the distributor element ( 24 ) are integrally formed with one another, the distributor element ( 24 ) in the region of the holding parts ( 26 ) via predetermined deformation points ( 58 ) which, while simultaneously shifting the associated Durchdringungskon clock ( 27 ) in the contacting direction ( 34 ) are deformable. 12. Connection device according to claim 11, characterized in that the holding parts ( 26 ) are part of a meandering support strip ( 52 ) of the distributor element ( 24 ). 13. Connection device according to one of claims 1 to 12, characterized in that the distributor element ( 24 ) is designed as a guide rail ( 56 ) on which at least one penetration contact ( 27 ) is arranged at right angles to the contacting direction ( 34 ), such that it can be positioned in the area of a selected cable core ( 3 ). 14. Connection device according to one of claims 1 to 13, characterized in that the ribbon cable ( 2 ) is a signal cable for controlling solenoid valves.