DE19903030C1 - Device for stripping-free contacting of a flat cable - Google Patents

Abstract

According to the invention, the device (1) for the stripping-free contacting of a flat cable has two contact elements (12, 13) which are opposite one another at a distance and which contact one of the line wires (3) from two sides. The one contact element (12) serves as a counterhold for the penetration contact through the other contact element (13). The required mutual approach of the contact elements (12, 13) is achieved by means of a frame (6) which is displaceably mounted in the housing base (4) of the device (1).

Description

The invention relates to an abiso device Lierfree contacting of a flat cable with several, in essentially arranged in one level line cores, with a housing for holding the flat cable and with a Contacting device with at least one first contact element ment that penetrates the insulation of the flat cable and serves for contacting a cable core.

A generic device is from EP 0 665 608 A2 known. Here is one through a flat cable and a connector device made electrical installation system of fenbart. The flat cable has essentially one level arranged power transmission and data transmission wires on, the data transmission wires not ver are drilled. The connection device is designed such that the energy transmission and data transmission cores abiso can be connected without piercing the insulation. The contact is made using a screw Pointed, from one side of the respective lei vein introduced contact element. The drag on the relevant line wire is in each case via the Systemge applied housing in which the flat cable is guided or gela device. When pressing in skewers as contact elements is the number of cores per flat cable that is also in contact can be tiert, according to the applicable handle exercise power limited. Contact systems with pointed screws are better compared to that, since the cable cores individually after be contacted. The two variants are common sam that the wire clamp against the encapsulation plastic he follows. The flow known with constant force of the plastic can lead to a limited long-term stabilization lead the contact.  

DE 25 07 130 B1 is a branch connector for abiso Lierfree contacting of a flat cable with several, in essentially arranged in one level with conductor cores a housing for holding the flat cable and with a Contacting device with at least one first contact element ment that penetrates the insulation of the flat cable and is used for contacting a wire. Here the line wires are contacted using a Counterholder, the z. B. V-shaped or U-shaped can be. Each line wire is between a screw and such a counterhold clamped so that deformations the cable sheath the contact pressure and the contact resistance do not affect. Because the cable sheath is not or only slightly under pressure, it does not become even when heated significantly deformed. The insulation is therefore also in the The occurrence of heating is not affected.

DE 26 21 502 A1 discloses an end connector for flat ribbon cable, with each cable core in a connection device device with a first and a second contact element leads and by moving the connecting device in a Housing is contacted, the distance of the contact elements reduced. The contact elements are here, however not arranged in the direction of displacement of the connection device net.

Furthermore, a branch connector for ribbon cables from the DE 35 45 305 C2 known. Here is the ribbon cable in one Frame is added and is moved by moving the frame in the Contacted housing. The contact elements are outside here of the frame attached to the bottom of the case.

Therefore, the invention has for its object a Vorrich tion of the above type to improve in that the Contacting a wire from two sides under Be provision of a counterpart is made, a simple one Handling with low actuation forces is desirable.  

The object is achieved in that a frame in the housing is slidably held, the opening for receiving the Flat cable is provided in the opening of the frame at least the first and a second contact element with one mutual distance in the direction of displacement of the frame are arranged that the intermediate given by the distance space for receiving the flat cable and that the distance the contact elements for contacting a line wire of the Flat cable can be changed by moving the frame.

The particular advantage of the solution according to the invention is in that the contact elements with only one handling movement tion, namely the displacement of the frame from both cables sides are pressed into the flat cable at the same time. This bilateral arrangement of the contact elements achieved that one of the contact elements as a counterhold in the Penetration of the cable core through the other contact ment can work.

Advantageous developments of the invention are the claims Chen 2 to 12 can be seen.

The device advantageously has according to claim 2 an operating mechanism for moving the frame on.

A particularly simple and inexpensive to manufacture management form exists when an in a thread of the frame rotatable screw is provided is.  

It when the according to claim 4 is particularly advantageous Screw is connected to the second contact element, wherein the screw is rotatable with the contact element via an annular groove is engaged. As a result, the second Kon clock element by direct force of the screw in the Flat cable pressed in for contacting a cable core becomes.

It is also advantageous if at least the first con Clock element is firmly connected to the frame, while the second contact element arranged relative to the frame is that when moving the frame between this and the second contact element a relative movement occurs. Here is easily achieved that the contact elements for contacting the relevant wire going from the original distance at which the flat cable brought into the opening of the frame, approach each other.

A particularly advantageous embodiment exists if that first contact element from two resilient contact cutting edges ge is with which the insulation around the line wire separable around and clinging to the wire is animal. In addition to contacting, the Clasping the counterhold achieved for the Kontaktie tion of the opposite contact element is required.

A particularly simple embodiment exists if that second contact element as a contact tip for penetration Contacting a cable designed as a stranded wire vein is formed.

To carry current from the contact elements to further ones Busbars or connections, it is advantageous if the Contact elements connected with a flexible conductor tape are that the approach movement of the Kon clocks enabled.  

If the frame has one or more assembly niches, in the first contact elements can be used, so here it is through possible to equip according to the location of the to make contacting wire. For contacting the differently located cable cores can therefore always the same frame can be used, only with regard to its equipment must be adapted.

The conductor strip is advantageously closed from the outside common connection of the housing connected so that a multiple electrical connection of a consumer to the Lei wire of the flat cable is possible.

In a particularly simple way, the displacement of the Rah mens realized in the housing base when the frame in egg ner pocket of the housing is added, which the required che guiding the frame ensures when moving.

An embodiment of the invention will follow hand explained in more detail a drawing. Show it:

Fig. 1 is a perspective view of the inventive Before the direction of the insulation displacement contact with a flat cable,

Fig. 2 is a sectional view of a device belonging to the frame with a contacting device,

Fig. 3 is a view of the device bels with a frame in the half-opened state before the insertion of a Flachka,

Fig. 4 is a perspective view of the device of FIG. 1 in the half-open state with an inserted flat cable,

Fig. 5 is a sectional view of the frame of FIG. 2 in the con tacted state of a flat cable and

Fig. 6 is a perspective view of the frame of FIG. 2 in the contacted state of the flat cable.

In Fig. 1, the device 1 according to the invention for abiso lierfrei contacting a flat cable 2 is shown, which has several line wires 3 lying in one plane. The cable cores are to be designed here in particular as cable strands 3 . The device is essentially composed of egg nem housing base 4 with several pockets 5 (see FIG. 3), in each of which a frame 6 is slidably held, and an associated cover 7 . In the housing base 4 and the frame 6 , the flat cable 2 can be inserted from the side. The housing base 4 has two side walls 9 which are provided with a groove 8 and which, in conjunction with a holding tongue 10, each provide an opening 11 (see FIG. 3) which serves to accommodate the flat cable 2 . Each frame 6 is, as shown in Fig. 2, provided with a contacting device, which comprises two contact elements 12 , 13 in the present embodiment. These lie opposite each other with formation of a space 14 with a distance within the opening 16 of the frame 6 . A side wall of the frame 6 is formed with an insertion opening 15 , through which the opening 16 of the frame 6 is accessible from the outside. Both the insertion opening 15 and the opening 16 of the frame are adapted to accommodate the flat cable 2 in the said space 14 between the cross section of the flat cable 2 . The opening 16 has in the direction of displacement indicated by the double arrow 17 of the frame 6 aligned inner guide surfaces 18 . Of the two contact elements 12 , 13 , the contact element 12 lying below according to FIG. 2 is inserted into two of a plurality of recesses 19 inserted into the bottom of the frame 6 . The lower contact element 12 is formed here by two contact cutting edges 26 resilient transversely to the direction of displacement 17 , the feet 27 of which are each in an assembly niche 19 . The contact element 13 located at the top in FIG. 2 lies in the middle of five guide nails 20 in the upper region of the frame 6 . The two contact elements 12 , 13 are attached to a flexible conductor strip 21 and are thus connected to one another in an electrically conductive manner. The conductor strip 21 is connected by means of a connecting screw 28 as shown in FIG. 1 to the device base 4 , which on a surface 29 formed as a flange side wall has slots 30 for receiving a contact tongue 31 each. This z. B. serving as plug contacts tabs 31 are connected via the connecting screw 28 with the respective conductor strip 21 bar. Each guide niche 20 is a net 22 accessible from FIG. 2 accessible from the top 21 of the frame 6 thread 22 . In the middle of the five threads 22 is screwed as a screw mechanism Betätigungsme 23 partially, the endsei tig via an annular groove 24 with a web 25 (see Fig. 6) of the upper contact member 13 is rotatably engaged. As an actuation mechanism z. B. a cam with a lever ratio is also conceivable.

The mode of operation of the device described above is explained below with reference to FIGS. 3 to 6.

In Fig. 3 the housing base 4 is shown, which here has four pockets 5 for receiving a frame 6 each. One of the pockets 5 is equipped with a frame 6 shown here in a sectional view. To make contact, the flat cable 2 is inserted from the side of the housing base 4 into the opening 11 and via the insertion opening 15 into the relevant frame 6 . The frame 6 is on the conductor band 21 , which is connected to the housing base 4 by means of the connecting screw 28 , held within the pocket 5 in a lower position, as shown in FIG. 4 with the flat cable 2 already inserted. By turning the screw 23 as the actuating mechanism, the frame 6 for contacting a line wire 3 is moved the necessary way upwards, ie out of the housing base 4 , the contact cutting edges 26 of the lower contact element 12 first severing the insulation of the relevant line wire 3 and then making contact clasp. By bracketing the lower contact element 12 , a counterhold for the simultaneous penetration of the insulation and the same ben wire 3 is generated by the opposite contact tip 13 . The contact tip 13 is held in the guide niche 20 out. When moving the frame 6 , the flat cable 2 is held by the inner guide surfaces 18 in the same position until the end of the Kontaktiervor gear. This final position, in which the screw 23 of the actuating mechanism is fully screwed into the thread 22 of the frame 6 in question, is shown in FIG. 6.

The flange surface 29 on the housing base 4 is used in conjunction with the protruding from the slots 30 contact tongues 31 for easy electrical connection of an appropriately adapted consumer area in its connection.

Claims (11)

1. Device for stripping-free contacting of a flat cable ( 2 ) with several, essentially arranged in one plane line wires ( 3 ), with a housing ( 4 , 7 ) for holding the flat cable ( 2 ) and with a Kontaktiereinrich device with at least a first contact element ( 12 ), which is used for penetrating the insulation of the flat cable ( 2 ) and for contacting a line core ( 3 ), characterized in that in the housing ( 4 ) at least one frame ( 6 ) is slidably held, the opening of which ( 16 ) for receiving the flat cable ( 2 ) is provided that in the opening ( 16 ) of the frame ( 6 ) at least the first ( 12 ) and a two-th contact element ( 13 ) with a mutual distance in the direction of displacement ( 17 ) of Frame ( 6 ) are arranged that the space ( 14 ) given by the distance serves to receive the flat cable ( 2 ) and that the distance of the Kontaktele elements ( 12 , 13 ) for contacting a line wire ( 3 ) of the flat cable ( 2 ) can be changed by moving the frame ( 6 ). 2. Device according to claim 1, characterized by an actuating mechanism ( 23 ) for displacing the frame ( 6 ). 3. Apparatus according to claim 2, characterized in that as an actuating mechanism in a thread ( 22 ) of the frame ( 6 ) rotatable screw ( 23 ) is easily seen. 4. The device according to claim 3, characterized in that the screw ( 23 ) with the second con tact element ( 13 ) is connected. 5. Device according to one of the preceding claims, characterized in that at least the first contact element ( 12 ) with the frame ( 6 ) is fixedly connected, while the second contact element ( 13 ) relative to the frame ( 6 ) is arranged such that upon displacement of the frame ( 6 ) between this and the second contact element ( 13 ) a relative movement occurs. 7. Device according to one of the preceding claims, characterized in that the first contact element ( 12 ) from two resilient contact cutting edges ( 26 ) is gebil det, with which the insulation around the cable core ( 3 ) can be separated and the cable core ( 3 ) clasping is contactable. 8. Device according to one of the preceding claims, characterized in that the second contact element is designed as a contact tip ( 13 ) for Durchdringungskontaktie tion as a wire ( 3 ) designed wire. 9. Device according to one of the preceding claims, characterized in that the contact elements ( 12 , 13 ) are connected to a flexible conductor strip ( 21 ). 10. Device according to one of the preceding claims, characterized in that the frame ( 6 ) has one or more niches ( 19 ) in which the first contact elements ( 12 ) can be used. 11. The device according to claim 9, characterized in that the conductor strip ( 21 ) is connected to an externally accessible connection ( 31 ) of the housing ( 4 ). 12. Device according to one of the preceding claims, characterized in that the frame ( 6 ) in a pocket ( 5 ) of the housing ( 4 ) is received.