DE19748505A1 - Connector for flexible ribbon cable e.g. for motor vehicle lighting system - Google Patents

Abstract

The connector has contacts (8,10) which penetrate the insulation of the flexible ribbon cable (4), one of which acts as a signal contact which can be placed in a number of different positions within the insulating housing of the connector. The different positions for the signal contact are defined by positioning elements within the hollow space (28) in the insulating housing for connection to respective signal lines of the ribbon cable.

Description

The present invention relates to a electrical connector according to the preamble of the An claim 1 and relates to a connector assembly for Connection with flexible flat cable.

Flexible flat cable is used in many applications used in which a plurality of signal lines must be provided in a compact manner. Such one Cable can be used as an electrical energy and signal line bus can be used along the connector be positioned around the power and signal lines gene to tap. An example of such a type are automotive lighting systems where a variety of lamps throughout the vehicle by a single cable or a few cables are bound, which extend through the vehicle. Different lamps could have different signal lines are controlled. Connector for connection with the flexible flat cable therefore require a ver binding with different lines of the cable.

It would be an advantage to create a connection system fen that is as inexpensive and simple as possible. It would be particularly advantageous if a sol Make the connection system from a few parts let that be inexpensive to manufacture and are inexpensive to install.

An object of the present invention is Creation of a connection system for flexible flat cable or ribbon cable with the above divide.

According to the invention, this goal is achieved by sheep fung of a connector according to claim 1. In particular becomes a connection system for flexible flat cables created that has a connector that a Ge housing and electrical connections installed in it has, with the connections the insulation penetrating or displacing section and a Have contact section, at least one of the Connections in a number of different positions is attachable, with its contact portion in extends a tab connector cavity, the complementary tab connector of a complementary one tary connector, with the contact in each of its positions on the complementary flat plugged in. Enable this way the different positions of the modular type finally a contact with different leaders of the cable so that different connectors in easier Way to different signal line configuration NEN can be customized while at the same time with standard or identical flat plug ver binders are connectable. The modular connections can be so-called "stitching" in the Ver Assemble the binder housing using the assembly machine or stitch machine automated in a simple manner can be to the modular connection in particular cost-effective and simple way in its req order position. The flexible flat cable can be connected to the connector by simply press the cable down on the contacts  and a crimping process takes place in the same operation. The protruding from the insulation protrude cuts all connections from a base wall of the ver binders upwards and are attached to it tert.

Preferred developments of the invention result from the subclaims.

The invention and developments of the invention will in the following based on the graphic representations of an embodiment explained in more detail. In the drawings show:

Figure 1 is an exploded isometric view of a connector according to the present inven tion and part of a flexible flat cable for connection to this.

FIG. 2 shows a longitudinal sectional view of the connector according to FIG. 1;

Fig. 3 is an isometric view towards a base wall of the connector of Figure 1 without cover and without flexible flat cable.

Fig. 4 is an isometric view of a terminal according to the present invention; and

Fig. 5 is a schematic representation of a Einrich device for mounting the connector according to the present invention.

As can be seen with reference to FIG. 1, an electrical connector 2 for flexible flat cable 4 has an insulating housing 6 , component connections 8 and a module-like position plug connection 10 . The housing 6 extends from a base wall 12 to a connector side 14 , which is directed towards a connectable, complementary tab connector (not shown). In a central area 16 of the housing 6 there are elec trical components such as. B. converters and other electronic circuit devices that process signals from energy and signal lines for supplying lighting arrangements, for example of a motor vehicle.

Each of the connections 8 , 10 has Kabelanschlußab sections 18 in the form of the insulation penetrating sections 18 and contact sections 20 , 22 , the contact sections of the connections or component connections 8 provided for the electrical components with electrical and electronic circuit devices within the central From section 16 are connected. The modular Posi tion plug connection 10 , however, has a Kontaktab section 22 in the form of a socket-like connection with mutually opposite cantilever arms 24 which can be plugged onto a flat plug 26 (see FIG. 3) of a complementary connector. The socket-like connector 22 is received in a connector receptacle 28 which extends from the base wall 12 to the connector side 14 . The complementary flat plug 26 of the complementary connector extends essentially over the entire width of the cavity 28 , so that the module-like position plug connector 10 can be positioned in a number of positions 30 , 32 . A plurality of positioning elements 34 is arranged in a direction T, which extends transversely to the direction of extension of the cable C, as shown in FIG. 3.

By positioning elements 34, which are formed cracks in the form of on which savings between them off form 30, 32, are different in cross possible positions of the connector device defined in the cavity 28, the projections 34 on to the sides of a transition region 36 attack that connects the insulation penetrating section or insulation displacement section 18 with the socket-like receiving area 22 of the connector 10 . The housing base wall also has grooves 38 proximate one end of the insulation displacement section 18 for engaging an extension 40 on the connector. The grooves 38 also form part of the connection positioning elements. The extension 40 creates an exact definition of the terminal insulation by urging section 18 with respect to the connector housing, according to the position of the various signal conductors or lines 5 of the cable. When a flexible flat cable 4 is positioned over it, the section 18 penetrates the insulation and comes into contact with a special signal line thereof. In this way, different adjacent signal lines (see FIG. 1) of the flexible flat cable 4 can be contacted depending on the modular positioning of the plug connector 10 . However, the receiving area 22 always contacts a single complementary connector, which in the present embodiment is a flat connector 26 , so that the complementary connector can be simplified. The complementary connector can thus be formed identically, but it enables a connection to the respective connector 2 , which are electrically connected to different signal lines 5 of the cable. The areas 18 of the connections 8 , 10 penetrating the insulation are held in contact with the connector base wall 12 , so that the flexible flat cable can be positioned over them and pressed down by means of a crimping tool which penetrates the insulation and at the same time the tabs 19 penetrating the insulation the contacts on the respective tracks 5 of the cable crimped.

The flexible flat cable is accommodated in a channel 39 on the side of the housing opposite the plug connection side 14 , the cable being fixed in the lateral direction with respect to the housing by being seated in a recess which is defined by side walls 41 , which form the channel 39 extending in the cable extension direction C. Further fixing projections 42 extend away from the base wall 12 and reach through punched cutouts in the flexible flat cable in order to securely hold and position the cable in the cable extension direction C.

Referring to Fig. 5 shows an example of an assembly process is shown schematically. A first energy and signal cable 4 'is supplied from a first cable supply 44 and crimped onto a connector 2 at a crimping station 6 . The crimping is carried out by means of a press tool 47 , which presses the cable onto the insulation penetrating sections 18 of the connections 10 , 8 , so that these penetrate the cable and are crimped onto the cable in their respective positions. Before the crimping process, the connector 2 is prepared in a stitching station 48 , on which component contacts 8 and module-like position plug connections 10 are brought into their respective positions. The stitching machine or assembly machine can be automated in a simple manner in order to vary the attachment position of the modular position plug connector 10 for different connector configurations. After the crimping station 46 , a shielding layer in the form of a flexible flat cable 50 , which has a ground plane, ie a ground conductor that occupies a considerable width of the cable, is attached to the cable 4 'by means of adhesive. The cable 50 or 4 'can e.g. B. be provided with previously attached self-adhesive material. The shielding cable serves to shield the connector and the signal conductors of the cable 4 'from radiation or the reception of electromagnetic interference.

The housing 6 can also be seen with a cover 54 , as best seen in Fig. 2 or Fig. 1, the strain relief areas 56 for inserting a U-shaped bending area 58 of the cable 4 into corresponding housing strain relief areas in Has form of recesses, thereby forming a train relief device for attaching the cable to the connector assembly. Interacting interlocking devices in the form of resilient locking members 62 of the cover engage on shoulders 64 of the housing to enable the cover to be attached to the housing.

Claims (10)

1. Connector for receiving a flexible Flachka cable ( 4 ) and for establishing a connection to it, wherein the flexible flat cable ( 4 ) has a plurality of juxtaposed conductors ( 5 ) which extend in a cable extension direction (C) and through one Insulating layer are kept spaced from one another, the connector having an insulating housing ( 16 ) and connections ( 8 , 10 ) which are placed in the housing, each connector having a connecting portion ( 18 ) for connection to a conductor ( 5 , 4 ') and a contact section ( 20 , 22 ), at least one of the connections being a plug-in connection and having a contact section ( 22 ) which is designed for plug connection with a complementary connection ( 26 ) of a complementary connector, the contact section ( 22 ) is received in a cavity ( 28 ) of the housing, characterized in that the housing positioning elements ( 34 , 38 ) which fix the connector ( 10 ) in a specific position in the cavity, several such positioning elements ( 34 , 38 ) positioning the connector in different transverse direction positions with respect to the direction of cable extension (C) in the cavity ( 28 ) enable a connection with various signal conductors ( 5 ) of the cable ( 4 ) to be produced, and that the cavity ( 28 ) for inserting a single complementary connection for connection to the plug connection is laid out in any of the various transverse direction positions . 2. Connector according to claim 1, characterized in that the plug connection ( 10 ) and the cavity ( 28 ) is designed to receive a complementary connection in the form of a flat plug ( 26 ) which is in Chen wesentli across the entire width of the cavity ( 28 ) extends. 3. Connector according to claim 1 or 2, characterized in that the connector housing ( 16 ) has a channel ( 39 ) which is designed for receiving and fixing the flexible flat cable ( 4 ) in the transverse direction to the cable extension direction (C). 4. A connector according to claim 3, characterized in that the channel ( 39 ) is provided along a base wall ( 12 ) which points in a direction opposite to a connector side ( 14 ) of the connector, the connector side ( 14 ) being pluggable Aufneh men of the complementary connector is formed. 5. Connector according to one of the preceding claims, characterized in that the housing ( 6 ) fixed laying projections ( 42 ) which can be brought into engagement with complementary cutouts in the cable ( 4 ) in order to fix and hold the cable in the direction of cable extension . 6. Connector according to one of the preceding claims, characterized in that the Positionierelemen te ( 34 , 38 ) have projections ( 34 ) which are arranged in the vicinity of an edge of the terminal receiving cavity ( 28 ). 7. A connector according to claim 6, characterized in that the Positionierelemen te ( 34 , 38 ) grooves ( 38 ) for engaging the connections and positioning the same at a connection end ( 40 ) have the same. 8. Connector according to one of the preceding claims, characterized in that the Verbindungsab sections ( 18 ) of the terminals on the insulation by urging or displacing contacts ( 18 ) sen, which protrude from a base wall ( 12 ) of the connector to the outside to a connection with the flexible flat cable accommodated above the base wall ( 12 ). 9. Connector according to one of the preceding claims, characterized in that a cover ( 54 ) is provided, which is designed for secure locking over a base wall of the connector, thereby sandwiching the flexible flat cable there between, the cover ( 54 ) strain relief areas ( 56 ) which cooperate with complementary strain relief areas ( 60 ) of the housing in order to secure the cable to the connector, the strain relief areas having a projection ( 56 ) received in a complementary cavity ( 60 ), which in the Cable a U-shaped bend area ( 58 ) he creates. 10. Connector according to claim 9, characterized in that the strain relief areas ( 60 , 56 ) are provided at opposite ends of the connector with respect to the cable extension direction (C).