WO2000045468A1

WO2000045468A1 - Device for contacting a flat cable without stripping the insulation therefrom

Info

Publication number: WO2000045468A1
Application number: PCT/DE2000/000117
Authority: WO
Inventors: Rainer Kreutzer
Original assignee: Siemens Aktiengesellschaft
Priority date: 1999-01-26
Filing date: 2000-01-13
Publication date: 2000-08-03
Also published as: DE19903030C1

Abstract

According to the invention, the device (1) for contacting a flat cable without stripping the insulation therefrom comprises two interspaced contact elements (12, 13) which respectively contact one of the line cores (3) from both sides. One contact element (12) serves as a counter holding element for the contacting by penetration of the other contact element (13). A frame (6) enables the necessary mutual approach of the contact elements (12, 13) and is displaceably mounted in the housing base (4) of the device (1).

Description

description

Device for stripping-free contacting of a flat cable

The invention relates to a device for stripping-free contacting of a flat cable with a plurality of line wires arranged essentially in one plane, with a housing for holding the flat cable and with a contacting device with at least one first contact element, which penetrates the insulation of the flat cable and makes contact a cable core is used

A generic device is known from EP 0 665 608 A2. An electrical installation system formed by a flat cable and a connecting device is disclosed here. The flat cable essentially has energy transmission and data transmission wires arranged in one plane, the data transmission wires not being twisted together. The connection device is designed such that the energy transmission and data transmission wires can be connected without stripping by piercing the insulation. The contact is made here by a contact element designed as a screw with a tip and introduced from one side of the respective line wire. The counterforce on the relevant line wire is applied via the system housing in which the flat cable is guided or stored. When pressing in skewers as contact elements, the number of cores per flat cable that can be contacted at the same time is limited according to the handling force that can be applied. In contrast, contacting systems with pointed screws are better, since the cable wires are contacted one after the other. The two variants have in common that the conductor is clamped against the encapsulating plastic. The flow of the plastic, which is known to have a permanent force effect, can lead to a limited long-term stability of the contact. From DE 25 07 130 Bl is a branch connector for stripping-free contacting a flat cable with several, essentially arranged in one plane line wires with a housing for holding the flat cable and with a contacting device with at least a first contact element, which is used to penetrate the insulation of the flat cable and is used to contact a wire. Here, the contacting of the line wires takes place with the aid of a counter-holder, which can be designed, for example, in a V-shape or U-shape. Each line wire is clamped between a screw and such a counter holder, so that deformations of the cable sheath do not influence the contact pressure and the contact resistance. Since the cable sheath is not or only slightly under pressure, it is not significantly deformed even when heated. The insulation is therefore not impaired even when heating occurs.

DE 26 21 502 A2 discloses an end connector for ribbon cables, in which each line wire is inserted into a connection device with a first and a second contact element and is contacted by moving the connection device into a housing, the distance between the contact elements being reduced. However, the contact elements are not arranged in the direction of displacement of the connection device.

Furthermore, a branch connector for ribbon cables is known from DE 35 45 305 C2. Here, the ribbon cable is accommodated in a frame and is contacted by moving the frame in the housing. The contact elements are attached outside the frame in the bottom of the housing.

The invention is therefore based on the object of improving a device of the type mentioned above in such a way that the contacting of a line wire takes place from two sides while providing a counter-support, wherein simple handling with low actuation forces is to be aimed for. The object is achieved in that a frame is slidably held in the housing, the opening for receiving the flat cable is provided that at least the first and a second contact element are arranged in the opening of the frame with a mutual distance in the direction of displacement of the frame that the by the distance given space for receiving the flat cable and that the distance of the contact elements for contacting a wire of the flat cable can be changed by moving the frame.

The particular advantage of the solution according to the invention is that the contact elements are pressed into the flat cable simultaneously from both cable sides with only one handling movement, namely the displacement of the frame. This arrangement of the contact elements on both sides ensures that one of the contact elements can act as a counter-hold when the line wire penetrates through the other contact element.

Advantageous developments of the invention can be found in claims 2 to 12.

The device advantageously has an actuating mechanism for displacing the frame.

A particularly simple and inexpensive to produce embodiment exists if a screw which can be rotated in a thread of the frame is provided as the actuating mechanism.

It when the screw is connected to the second contact element is particularly advantageous, the screw being rotatably engaged with the contact element via an annular groove. This has the consequence that the second contact element by direct action of the screw in the Flat cable for contacting a cable core is pressed in.

Furthermore, it is advantageous if at least the first contact element is firmly connected to the frame, while the second contact element is arranged relative to the frame in such a way that a relative movement occurs between the frame and the second contact element when the frame is displaced. It is hereby achieved in a simple manner that the contact elements for contacting the relevant line wires approach one another, starting from the original distance at which the flat cable is brought into the opening of the frame.

A particularly advantageous embodiment consists if the first contact element is formed from two resilient contact cutting edges, with which the insulation can be separated around the line wire and the line wire can be clipped in contact. In addition to the contacting, the clasping achieves the counterhold that is required for contacting the opposite contact element.

A particularly simple embodiment exists if the second contact element is designed as a contact tip for making penetrating contact with a line wire designed as a stranded wire.

To conduct current from the contact elements to further conductor rails or connections, it is advantageous if the contact elements are connected to a flexible conductor strip, which enables the above-described approach movement of the contacts.

If the frame has one or more niches in which the first contact elements can be inserted, this makes it possible to carry out the fitting according to the position of the line wire to be contacted. It is therefore always possible to contact the differently located cable cores the same frame can be used, which only needs to be adjusted in terms of its equipment.

The conductor strip is advantageously connected to an externally accessible connection of the housing, so that a simple electrical connection of a consumer to the line wires of the flat cable is possible.

The displacement of the frame in the housing base is realized in a particularly simple manner if the frame is accommodated in a pocket of the housing, which ensures the necessary guidance of the frame when it is displaced.

An embodiment of the invention is explained in more detail below with reference to a drawing. Show it:

1 shows a perspective view of the inventive device for stripping-free contacting of a flat cable, FIG. 2 shows a sectional view of a frame belonging to the device with a contacting device, FIG. 3 shows a view of the device with a frame in the half-open state before inserting a flat cable, FIG. 4 shows a perspective view 1 shows the device according to FIG. 1 in the half-open state with inserted flat cable, FIG. 5 shows a sectional view of the frame according to FIG. 2 in the contacted state of a flat cable, and FIG. 6 shows a perspective view of the frame according to FIG. 2 in the contacted state of the flat cable.

1 shows the device 1 according to the invention for stripping-free contacting of a flat cable 2 which has a plurality of 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 made of 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 assembled. The flat cable 2 can be inserted from the side into the housing base 4 and the frame 6. 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 in each case, provide an opening 11 (see FIG. 3) which serves to accommodate the flat cable 2. As shown in FIG. 2, each frame 6 is provided with a contacting device, which in the present exemplary embodiment comprises two contact elements 12, 13. These lie opposite one another with the formation of an intermediate space 14 at 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 space 14 mentioned, the cross section of the flat cable 2. The opening 16 has inner guide plates 18 aligned in the direction of displacement of the frame 6 indicated by the double arrow 17. Of the two contact elements 12, 13, the contact element 12 lying at the bottom according to FIG. 2 is inserted into two of the assembly niches 19 embedded in the bottom of the frame 6 on the inside. 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 niches 20 in the upper region of the frame 6. The two contact elements 12, 13 are fastened to a flexible conductor strip 21 and are thereby connected to one another in a current-conducting manner. The conductor strip 21 is connected by means of a connecting screw 28 according to FIG. 1 to the device base 4, which has slots 30 on a side wall designed as a flange surface 29 for receiving a contact tongue 31 in each case. These contact tongues 31, which serve, for example, as plug contacts, are connected to the respective conductor strip 21 via the connecting screw 28. bar. Each guide niche 20 is assigned a thread 22 which is accessible from the upper side 21 of the frame 6 as shown in FIG. In the middle of the five threads 22, a screw 23 is partially screwed in as an actuating mechanism, the screw being rotatably engaged at the end via an annular groove 24 with a web 25 (see FIG. 6) of the upper contact element 13. A cam disk with a lever ratio is also conceivable as an actuating mechanism.

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

FIG. 3 shows the housing base 4, 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. For contacting, the flat cable 2 is simultaneously inserted into the opening 11 from the side of the housing base 4 and into the relevant frame 6 via the insertion opening 15. The frame 6 is held in a lower position within the pocket 5 via the conductor strip 21, which is connected to the housing base 4 by means of the connecting screw 28, as is also 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. The clasping of the lower contact element 12 creates a counter-hold for the simultaneous penetration of the insulation and the same line core 3 by the opposite contact tip 13. The contact tip 13 is kept guided in the guide niche 20. When moving the frame 6, the flat cable 2 is kept in the same position by the inner guide surfaces 18 until the contacting process is complete. 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, FIG. 6 shows.

The flange surface 29 on the housing base 4, in conjunction with the contact tongues 31 protruding from the slots 30, serves for the simple electrical connection of a consumer which is appropriately adapted in its connection area.

Claims

claims

1. Device for stripping-free contacting of a flat cable (2) with a plurality of line wires (3) arranged essentially in one plane, with a housing (4,7) for holding the flat cable (2) and with a contacting device with at least one a first contact element (12), which is used to penetrate the insulation of the flat cable (2) and to contact a line wire (3), characterized in that at least one frame (6) is slidably held in the housing (4), the Opening (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 second contact element (13) with a mutual distance in the direction of displacement (17) of the frame (6) are arranged so that the space (14) given by the distance serves to receive the flat cable (2) and that the distance of the contact elements (12, 13) for contacting a line wire (3) of the flat cable (2) by moving the Rah mens (6) is changeable.

2nd Apparatus according to claim 1, an operation mechanism (23) for displacing the frame (6).

3. Apparatus according to claim 2, characterized in that a screw (23) which can be rotated in a thread (22) of the frame (6) is provided as the actuating mechanism.

4. The device according to claim 3, characterized in that the screw (23) is connected to the second contact element (13).

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) is arranged relative to the frame (6) in such a way that a relative movement occurs when the frame (6) is displaced between the latter and the second contact element (13).

6. Device according to one of the preceding claims, characterized in that the first contact element (12) is formed from two resilient contact cutting edges (26) with which the insulation can be separated around the cable core (3) and the cable core (3) clasping. is tactable.

7. Device according to one of the preceding claims, characterized in that the second contact element is designed as a contact tip (13) for the penetration contacting of a line wire designed as a stranded wire (3).

8. Device according to one of the preceding claims, characterized in that the contact elements (12, 13) are connected to a flexible conductor strip (21).

9. 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.

10. Device according to one of the preceding claims, characterized in that the conductor strip (21) with an externally accessible connection (31) of the housing (4) is connected.

11. Device according to one of the preceding claims, characterized in that the frame (6) in a pocket (5) of the housing (4) is received.