DE19512500C2 - Rotary connector system - Google Patents

Description

The present invention relates to a Rotary connector system according to the preamble of Claims 1, 2 and 3.

With such a rotary connector system for connection a rotating part and a stationary part is in particular a steering device of a vehicle equipped. The flexible cable is called a "flat cable" referred to that from a variety of each other parallel conductors is formed on which a pair Insulating layers are laminated on. The two ends of the cable are on the inner and outer cylindrical area and then set to the Outside of the first and the second housing part led to the outside. They are also system connectors provided for both ends of the cable. The Rotary connector is built into the steering device, and at the same time these connectors are included complementary external connectors coupled for a rotatable element or a stationary element are provided to thereby provide an electrical Establish connection between the connections that for the system connectors and for the complementary ones external connectors are provided.

With such a rotary connector system, several Types of inspections performed before entering the Steering device is installed. During the Inspection process can be done from within the  System connector protruding connections through a human body, more static Exposed to electricity or the like, which also creates a static charge on the elongated conductor can be caused in the flexible cables are embedded. If in this case a potential difference between the respective Ladders is produced, and especially when high Potential difference generated between a pair of conductors is that for connecting an airbag circuit static damage to the for the control section of the airbag circuit provided, integrated circuits arise when the system connector with that for the steering device provided complementary external connector be coupled. To solve the above The problem is the type of one described below Rotary connector system has been proposed with is equipped with a short-circuit function (EP-0 437 642 A1). A short circuit bar is for everyone System connector provided for a short circuit to establish between a pair of connections with the Conductors of an airbag circuit are connected. This Short circuit bar has the function, the pair of connections to keep at the same potential until that Rotary connector system built into the steering device is. If the connector system in the steering device is a short-circuit cancellation protrusion, which is intended for each external connector to Disconnect the shorting bar from the connections designed.

To illustrate the invention, Fig. 7 is a perspective view showing this first type of rotary connector system, Fig. 8 is a cross sectional view of a system connector provided for the rotary connector system and a complementary external connector, and Fig. 9 is a perspective view for explaining one provided for the system connector Short circuit bar.

As can be seen in Fig. 7, a conventional rotary connector system has on the whole a first housing part 1 with an inner cylindrical region 1 a, a second housing part 2 with an outer cylindrical region 2 a and a flexible cable 3 , which between the inner and the outer cylindrical region 1 a and 2 a is fitted. The two housing parts 1 and 2 are rotatably connected to one another. The flexible cable 3 is a flat cable which is formed from a number of mutually parallel conductors onto which a pair of insulating layers is laminated. The number of conductors is designed in accordance with the number of conductors of the circuits to be connected, which can be an airbag circuit, a speed control circuit, a horn circuit and the like, all of which are provided for a steering device. A rotatable connector 4 is integrally formed on the top of the first housing part 1 , and a number of connector terminals 5 extend upward inside the rotary connector 4 . The provided at the inner end of the flexible cable 3 , respective conductors with the arranged in the first housing part 1 connector terminals 5 z. B. connected by soldering or spot welding. The outer end of the flexible cable 3, on the other hand, is fixed to the outer cylindrical region 2 a and led out of the second housing part 2 . A stationary connector 6 is connected to the respective conductors provided at the outer end of the flexible cable 3 . As shown in Figs. 13 and 14, a U-shaped short bar 7 is arranged inside the rotary connector 4 , and free ends of the short bar 7 are each in contact with a pair of connector terminals 5 used for connecting an airbag circuit. The connector terminals 5 are thus short-circuited by this short-circuit bar 7 .

The first type of rotary connector system designed in the manner described above can be mechanically connected to a steering device by attaching the first and second housing parts 1 and 2 to a steering wheel or a vehicle body. In addition, an external connector 8 provided for the steering wheel is connected to the rotary connector 4 , while an external connector (not shown) provided for the vehicle body is connected to the stationary connector 6 , to thereby establish an electrical connection between the connector system and the steering device. A number of clip-type connections or clip connections 9 , which correspond to the connector connections 5 arranged in the rotary connector 4 , are provided in the interior of the external connector 8 . A short-circuit cancellation projection 8 a for driving the short-circuit rail 7 is arranged on a part of the outer wall of the external connector 8 . The external connector 8 is inserted into the rotary connector 4 in such a way that the projection 8 a can fit into the contacting area between the connector connections 5 and the short-circuit bar 7 . The short-circuit rail 7 is bent thereby, so that it is separated by the projection 8a of the connector terminals 5, lifted so that the short-circuit state of the terminals. 5 When the external connector is fully fitted in the rotary connector 4 8, the clip ports 9 are clamped onto the respective connector terminals 5, is achieved whereby a secure connection between the terminals 5 and. 9

From DE 90 10 565 U1 a shorting plug is included an insulating pin known when inserting the Short-circuit plug in a socket two existing there Separates contact springs from each other. These two Contact springs are in the usual way as curved, symmetrical contact springs formed.

DE 39 09 912 A1 is a multi-pole Plug device with a short circuit bridge in Form of a curved spring member known. On Contact area of the curved spring member is also available a connector in the housing of the device in Connection when the knife contacts bear Connector is removed.

However, the type of rotary connector system described above in connection with FIGS . 8-10 has the following problems. If the rotary connector 4 and the complementary external connector 8 are connected to each other, both part of the clip terminals 9 and the short-circuit cancellation projection 8 a between the connector terminals 5 of the rotary connector 4 and the short-circuit bar 7 is fitted. This causes a large amount of deflection in the short-circuit bar 7 . After repeated connection and disconnection of the rotary connector 4 and the external connector 8 due to maintenance work or the like, it is possible that the shorting bar 7 can no longer return to its original shape. As a result, when the external connector 8 is disconnected from the rotary connector 4 , the short-circuit bar 7 is not brought into contact with the connector terminals 5 , thereby affecting the short-circuit function. In addition, since the clip terminals 9 slide on a contact area between the connector terminals 5 and the shorting bar 7 , powder material generated by the sliding motion sticks to the contact area between the connector terminals 5 and the shorting bar 7 during the rotation, while the rotary connector 4 and the external connector 8 are connected and disconnected several times, which in turn affects the short-circuit function.

The object of the invention is to create an extreme reliable rotary connector system, in which a Short-circuit function over a longer period of time maintains.

This task is alternatively solved by the in the Claims 1, 2 and 3 specified invention.

With this construction, the connector connections be forked into two areas, the first or second contacting area are usable. In addition, the first and the second contact areas in the width direction the connector connections are offset from one another or be separated. However, you can also head towards the Length of connector connections offset from each other his.  

Until the installation of the rotary connector system in the Steering device becomes a pair of Connector connections for the system connector are provided by the shorting bar short-circuited. With this arrangement one can pair of conductors connected to the terminals keep flexible cable at the same potential. To the Install the connector system in the steering device when connecting the system connector to the external connector the short circuit bar by for short-circuit provided for the external connector Cancellation area shifted. This will make one Separation of the short-circuit bar from the Connector connections allows, which the Short circuit condition is canceled. The Connector connections are each designed such that the first contact area, which with the External connector connections in contact brought from the second contacting area, the brought into contact with the short circuit bar is offset or arranged separately from this is. Thus, only the short-circuit Cancellation area between the second Contacting areas and the short-circuit bar to be introduced, which is what Amount of displacement or amount of bending of the Short circuit bar can be reduced. Even if possibly powder particles due to abrasion due to the sliding movement of the connections of the external Connector on the first contact areas of the Connector connections are generated, reach them Powder particles not the second Contact areas from the first Contacting areas are provided remotely, so that a short circuit fault can thus be prevented.  

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 several embodiments explained in more detail. In the drawings show:

Fig. 1 is a perspective view of a rotary connector system according to a first embodiment of the present invention;

Fig. 2 is a cross sectional view showing a system connector provided for the connector system shown in Fig. 1 and an external connector;

Figure 3 is a perspective view showing the essential parts of an external connector and a connector system which is intended for a connector system according to a second embodiment of the present invention.

Fig. 4 is a cross-sectional view showing an external connector and a connector system which is intended for a connector system according to a third embodiment of the present invention;

Fig. 5 is a cross-sectional view showing an external connector and a connector system which is intended for a connector system according to a fourth embodiment of the present invention;

Fig. 6 is a cross-sectional view showing an external connector and a connector system which is intended for a connector system according to a fifth embodiment of the present invention;

Fig. 7 is a perspective view showing a first type of a conventional rotary connector system;

Fig. 8 is a cross sectional view showing an external connector and a system connector provided for the connector system shown in Fig. 7; and

Fig. 9 is a perspective view showing a short-circuit bar, which is provided for the system connector shown in Fig. 8.

Exemplary embodiments of the present invention are described below with reference to the accompanying drawings. The same reference numerals are used for parts which correspond to the parts shown in FIGS. 7 to 9.

The first embodiment differs from the type of connector system described above in the following respects. The front ends of a pair of connector terminals 5 used for connecting an airbag circuit are each bifurcated into two areas. One area is used as the first contacting area 5 a, which is brought into contact with a clip-like connection or clip connection 9 of the external connector 8 . The other area is used as the second contacting area 5 b, which is brought into contact with a short-circuit bar 7 . That is, the front end of the connector terminal 5 is bifurcated in the vertically extending first contact area 5 a and the L-shaped bent second contact area 5 b. The second contacting area 5 b is separated from the first contacting area 5 a and from the other connector connections 5 by a partition 4 a. The shorting bar 7 is located within the partition 4 a, and the free ends of the shorting bar 7 are in contact with the second contacting areas 5 b of the respective connector terminals 5th The remaining design and operating features are largely similar to those of the first type of the conventional rotary connector system described at the outset, so that the same will not be explained again.

The rotary connector system designed in the manner described above can be mechanically connected to a steering device by attaching the first and second housing parts 1 and 2 to a steering wheel or a vehicle body. In addition, the complementary external connector 8 provided for the steering wheel is connected to the rotary connector 4 , while an external connector (not shown) provided for the vehicle body is coupled to the stationary connector 6 , to thereby establish an electrical connection of the connector system to the steering device . In this connection process, the external connector 8 is inserted into the rotary connector 4 , so that the short-circuit cancellation projection 8 a is fitted into a contact area between the second contacting areas 5 b of the connector connections 5 and the short-circuit bar 7 . The shorting bar 7 is thereby bent so that it is separated by the projection 8a of the connector terminals 5, is canceled so that the short-circuit state of the terminals. 5 The respective clip connections 9 perform a sliding movement when clamping onto the first contact areas 5 a of the connector connections 5 and the further connections 5 , as a result of which a secure connection between the connections 5 and 9 is established.

According to the first exemplary embodiment, which is designed in the manner described above, a pair of connector connections 5 , which is used for connecting the airbag circuit, are each forked into two regions, namely the first and the second contacting regions 5 a and 5 b, which are connected to the clip connections 9 or are brought into contact with the short-circuit bar 7 , these regions 5 a and 5 b being formed offset from one another. In this construction, only the short-circuit cancellation projection 8 a needs to be inserted between the second contacting areas 5 b of the connector connections 5 and the short-circuit bar 7 , so that a degree of deflection of the short-circuit bar 7 is thereby reduced. Caused even after a by maintenance or the like, the repeated connection and disconnection of the rotary connector 4 and the external connector 8, the short-circuiting bar 7 can be achieved by a slight degree of bending of the rail 7 during cutting of the external connector 8 of the rotary connector 4 is still in a reliable manner with the Bring the first contacting areas 5 a into contact. This reliable connection between the short-circuiting bar 7 and the connector terminals 5 can maintain the established with the terminals 5 shorting function for a long period of time. Even if the powder particles may be due to wear on the first contact regions 5 is generated by the sliding movement of the clip terminals 9 a, so this powder b does not reach the second contact areas 5, which are positioned remote from the first contact regions. The presence of the partition 4 a arranged between the two areas 5 a and 5 b also reliably prevents failure of the short-circuit connection due to possible powder particles due to wear.

Fig. 3 is a perspective view showing the essential portions of a complementary external connector and a connector system which is intended for the rotary connector system according to a second embodiment. Corresponding parts shown in FIGS. 1 and 2 are designated by the same reference numerals.

This embodiment differs from the previously described first embodiment in the following respects. Instead of the formation of the front ends of a pair of connector connections 5 , which are split into two areas in each case, which are used for connecting the airbag circuit, the connector connections 5 in this exemplary embodiment are extended or widened in the width direction orthogonal to the insertion direction of the external connector 8 , whereby the outer areas of the widened parts are used as first contacting areas 5 a, which are brought into contact with the clip connections 9 , and the inner areas are used as second contacting areas 5 b, which are brought into contact with the short-circuit bar 7 . This exemplary embodiment, like the first exemplary embodiment, is designed such that the first and second contacting regions 5 a and 5 b are offset from one another, in the present case in the horizontal direction, and thus only the short-circuit cancellation projection 8 a is between them to introduce second contact areas 5 b and the short-circuit bar 7 . Advantages similar to those in the first exemplary embodiment can thus be achieved.

Fig. 4 shows a cross-sectional view showing a complementary external connector and a connector system which is intended for the rotary connector system according to a third embodiment. Parts corresponding to the elements in FIG. 3 are identified by the same reference numerals.

This embodiment differs from the second embodiment in the following respects. Instead of the elongated configuration of the pair of connector connections 5 which are used for connecting an airbag circuit, the connections 5 are designed to be somewhat elongated in the insertion direction of the external connector 8 , ie in the longitudinal direction. The upper regions of the connections 5 are used as first contact regions 5 a, which are brought into contact with the clip connections 9 , while the lower regions thereof are used as second contact regions 5 b, which are brought into contact with the short-circuit bar 7 . This exemplary embodiment, like the preceding exemplary embodiments, is designed such that the first and second contacting regions 5 a and 5 b are offset from one another, in the present case in the vertical direction. It is therefore only the short-circuit cancellation projection 8 a between the second contact areas 5 b and the short-circuit bar 7 to be introduced. In this way, advantages similar to those in the first embodiment are obtained.

Fig. 5 shows a cross-sectional view showing a complementary external connector and a connector system which is intended for the rotary connector system according to a fourth embodiment. Parts corresponding to the parts shown in FIGS. 1 and 2 are again identified by the same reference numerals.

This embodiment differs from the first embodiment in that the conductors of the flexible cable 3 simultaneously have the function of the respective connections 5 of the rotary connector 4 . That is, as explained at the beginning, the cable 3 consists of a number of mutually parallel conductors 10 onto which a pair of insulating layers 11 and 12 are laminated. The inner end of this cable 3 is reversely U-shaped along a holding area 13 which is raised in the interior of the rotary connector 4 . The upper insulating layer 11 is removed from the curved portion of the cable 3 so that each conductor 10 can be exposed, such an exposed portion being used as the connector terminal 5 which is brought into contact with a clip terminal 9 of the external connector 8 . Of the connector connections 5 formed in the manner described above, a pair of connections 5 , which is used for the connection of an airbag circuit, each have a first contact area 5 a and a second contact area 5 b. This second contact area 5 b, which is brought into contact with the short-circuit bar 7 , is continued from the first contact area 5 a along the inner side of the partition 4 a upward. At this continued part of the second contacting region 5 b, the lower insulating layer 12 is removed from the conductor 10 , which is thus exposed. The flexible cable 3 is z. B. securely attached to the holding area 13 and the partition 4 a in the manner described below. Holes are provided in the cable 3 and fitted on elevations which are provided in the holding area 13 and the partition 4 a, after which the elevations are caulked or riveted. Alternatively, the cable 3 is simply connected to the holding area 13 and the partition 4 a using an adhesive. The other elements not described above are essentially similar to those of the first embodiment.

The exemplary embodiment described above, like the preceding exemplary embodiments, is designed such that the first and the second contacting regions 5 a and 5 b of the contact connections 5 are arranged offset from one another. It is therefore only necessary to insert the short-circuit cancellation projection 8 a between the second contacting areas 5 b and the short-circuit bar 7 . Advantages similar to those in the first exemplary embodiment are thus obtained. Since the conductors 10 of the flexible cable 3 also serve as connector connections 5 of the rotary connector 4 , no separate process for connecting the cable 3 to the connections 5 is required. In addition, the first and the second contacting regions 5 a and 5 b are held on the regions of the insulating layers 12 and 11 , respectively, which are not removed from the conductors 10 . This improves the mechanical strength of the connector terminals 5 to a greater extent compared to connector devices formed only from the conductors 10 .

Fig. 6 shows a cross-sectional view showing a complementary external connector and a connector system which is intended for the rotary connector system according to a fifth embodiment. Here, the Fig. 5, corresponding parts are denoted by the same reference numerals.

This embodiment differs from the fourth embodiment in that the second contact area 5 b of each connector terminal 5 is fastened to an opposite side wall facing the partition 4 a and in that the base end of the short-circuiting rail 7 is fastened to the partition 4 a. The other design features are substantially the same as in the fourth embodiment. In this fifth exemplary embodiment, both the first and the second contacting regions 5 a and 5 b are formed by the exposed conductor 10 , from which the upper insulating layer 11 has been removed and which is held only by the lower insulating layer 12 .

In the exemplary embodiments described above, the short-circuit bar 7 is provided for the rotary connector 4 of the type which is integrally formed on the first housing part 1 . This short-circuit bar 7 can, however, be arranged on a rotary connector which is connected to the first housing part 1 via a lead wire, or it can be provided for the stationary connector 6 .

Claims (5)

1. Rotary connector system with a pair of housing parts which are rotatably connected to each other, with a flexible cable accommodated inside the housing parts and with system connectors which are arranged at both ends of the cable and each have a number of connector connections which are provided for an external connector Connections are to be connected, at least one of the system connectors having a shorting bar ( 7 ) to create a short circuit between the connector connections ( 5 ), the connector connections each having a first contact area ( 5 a) which is connected to the connections of the external connector ( 8 ) is brought into contact, and have a second contacting area ( 5 b) which is brought into contact with the short-circuit bar ( 7 ), characterized in that the first and second contacting areas ( 5 a, 5 b) are offset from one another, short-circuit bar ( 7 ) from the connector terminals ( 5 ) by a short circuit cancellation area ( 8 a) provided for the external connector, if the system connector is connected to the external connector, and the connector connections ( 5 ) are each forked into two areas, the first and second contacting area ( 5 a, 5 b) form. 2. Rotary connector system with a pair of housing parts that are rotatably connected to each other, with a flexible cable accommodated inside the housing parts and with system connectors that are arranged at both ends of the cable and each have a number of connector connections that are provided for an external connector Connections are to be connected, at least one of the system connectors having a shorting bar ( 7 ) to create a short circuit between the connector connections ( 5 ), the connector connections each having a first contact area ( 5 a) which is connected to the connections of the external connector ( 8 ) is brought into contact, as well as a two contacting area ( 5 b), which is brought into contact with the short-circuit bar ( 7 ), characterized in that the first and the second contacting area ( 5 a, 5 b) are offset from one another, the Short circuit bar ( 7 ) from the connector terminals n ( 5 ) can be separated by a short circuit cancellation area ( 8 a) provided for the external connector when the system connector is connected to the external connector, and the first and second contacting areas ( 5 a, 5 b) perpendicular to the plug-in direction in one The plane of each of the connector connections ( 5 ) are offset from one another. 3. Rotary connector system with a pair of housing parts that are rotatably connected to each other, with a flexible cable accommodated inside the housing parts and with system connectors that are arranged at both ends of the cable and each have a number of connector connections that are provided for an external connector Connections are to be connected, at least one of the system connectors having a shorting bar ( 7 ) to create a short circuit between the connector connections ( 5 ), the connector connections each having a first contact area ( 5 a) which is connected to the connections of the external connector ( 8 ) is brought into contact, as well as a two contacting area ( 5 b), which is brought into contact with the short-circuit bar ( 7 ), characterized in that the first and the second contacting area ( 5 a, 5 b) are offset from one another, the Short circuit bar ( 7 ) from the connector terminals n ( 5 ) by a short circuit cancellation area ( 8 a) provided for the external connector, if the system connector is connected to the external connector, the flexible cable ( 3 ) is designed as a ribbon cable, in which a row of parallel conductors between two A pair of insulating layers ( 11 , 12 ) is held, and the connector terminals ( 5 ) are formed by the exposed conductors, from which the insulating layers ( 11 , 12 ) are partially removed. 4. A rotary connector system according to claim 3, characterized in that the conductors forming the connector connections ( 5 ) are held on one of the insulating layers ( 11 , 12 ), and only one of the insulating layers has been removed. 5. rotary connector system according to claim 3, characterized in that the first or the second contacting areas ( 5 a, 5 b) of the connector connections forming conductor by partial removal of the first or the second insulating layer ( 11 , 12 ) are formed.