The invention relates to a support bracket for an exterior handle of a vehicle door.
It is generally known that vehicle doors for motor vehicles are typically constructed of an outer skin and an interior lining, which together form the basic structure of the vehicle door. Based on this basic structure of the vehicle door, the door is finished by placing various components in the interior space formed by the exterior skin and the interior lining. These components include, for example, in addition to loudspeakers specifically the window panes with associated operating and guide elements, as well as the vehicle locks and the door handles, which are preferably located in form for an exterior handle in a handle recess disposed in the exterior skin of the vehicle door and operatively connected in the form of a closing cylinder with the vehicle lock.
Many different approaches are known for mounting the exterior handle and hence also the closing cylinder on the exterior skin of the vehicle door, as well as for positioning the exterior handle and the closing cylinder in the handle recess of the exterior skin of the vehicle door. These approaches are essentially always based on a basic component in the form of a support bracket, which is directly or indirectly attached to the inside of the outer skin of the vehicle door and thereby also to the handle recess. For example, a configuration for the exterior handle on the vehicle door is known wherein a support bracket is pre-mounted inside the outer skin of the vehicle door. A pull rod, which is separate from the exterior handle and pretensioned by a compression spring, operates on an actuating lever for the lock. A mounting plate assembly for the cylinder lock is also installed. With this configuration, the exterior handle and the closing cylinder can be installed at a later assembly stage, after the vehicle door is already closed, from the outside by way of a clip-on connection. One support end of the exterior handle hereby engages with the journal of the support bracket, whereas a coupling system is created between the pull rod and the exterior handle which enables the pull rod to move transversely relative to the exterior handle, so that the pull rod can be tightly guided in a guide opening.
In another conventional arrangement, which is also based on a support bracket disposed on the inside of the exterior skin of the vehicle door, the support bracket includes, in addition to a torsion spring, corresponding openings disposed on its longitudinal ends, with an additional opening arranged following a corresponding one of the openings. While the openings disposed on the longitudinal ends of the support bracket are provided for passage of the connecting elements of the exterior handle, the additional opening arranged following one of the two openings is provided for mounting the closing cylinder. Depending on the respective configuration or operation of the exterior handle, the support bracket may have on the side facing the opening provided for securing the closing cylinder a support fork which allows the exterior handle to pivot.
Regardless of the configuration of the support bracket attached to the inside of the exterior skin of the vehicle door and thereby also to the handle recess, and regardless of the way in which the closing cylinder is operatively connected to the exterior handle of the vehicle door, it has been observed that the lock-handle connections provided by the support bracket do not always provide the required safety in a crash, so that even a relatively small impact force can impair the operability of the lock-handle connections. Accordingly, even these small crash impact forces can endanger the vehicle occupants by rendering the lock-handle connections inoperable.
It is therefore an object of the invention to provide a support bracket for an exterior handle of a vehicle door for motor vehicles, which improves the functional safety of the lock-handle connection in response to impact forces resulting from a crash, thereby essentially eliminating or at least reducing, the risk for the vehicle occupants caused by inoperability of the lock-handle connection.
This object is solved with the present invention by providing a novel support bracket The lock-handle connection includes an additional connection which enhances the operational safety when subjected to crash impact forces. This is achieved by associating a Bowden cable connection with the support bracket substantially in the region of the opening that supports the closing cylinder, as well as in the region of the opening which is arranged following that opening and receives a connecting element of the exterior handle. The Bowden cable connection is releasably connected with the downwardly depending longitudinal side of the support bracket. This approach essentially eliminates, or at least significantly reduces the risk for the vehicle occupants by retaining the functionality of the lock-handle connection.
According to an advantageous embodiment of the invention, the Bowden cable connection is preferably constructed of a T-shaped profile. One end of the Bowden cable is connected to the rib of the T-shaped profile, whereas both ends of the flange of the T-shaped profile include respective recesses for attaching the Bowden cable connection to the support bracket. The support bracket includes bearing journals for attaching the Bowden cable connection, which are arranged on the downwardly depending longitudinal sides of the support bracket.
The Bowden cable connection can be attached to the support bracket by way of the bearing journals by designing one side of the recesses disposed on the two ends of the flange of the T-shaped profile of the Bowden cable connection to be open to the outside. Based on this configuration of the recesses, the connection between the Bowden cable connection and the support bracket can be made crash-safe by arranging the recesses inside the flange of the T-shaped profile in such a way that one of the recesses extends at an angle of 90° with respect to the longitudinal direction of the flange of the T-shaped profile, whereas the second recess is oriented in the direction of the flange and is open to the outside exterior to the cross-section occupied by the bearing journal of the support bracket in the second recess. The Bowden cable connection is hereby attached to the support bracket by a clip-on connection by initially hooking the flange of the T-shaped profile of the Bowden cable connection in the corresponding bearing journal of the support bracket by way of the recess that is oriented in the direction of the flange, whereafter the recess which is oriented at 90° with respect to the longitudinal direction of the flange of the T-shaped profile is clipped on (by pressing) in the corresponding bearing journal of the support bracket.
According to another feature of the invention, a gap is formed between the flange of the T-shaped profile of the Bowden cable connection and the rib of the T-shaped profile, with the gap creating a discontinuity and a height offset to match the exterior contour of the support bracket. The opposing ends of the flange which are separated by the gap each have a pivot adapted to pivotally receive a connecting element that connects to the second end of the Bowden cable. The connecting element, which is pivotally connected to the Bowden cable, includes on its top side a recess which pivotally receives the leg of a frame. The frame is operatively connected to the support bracket and hence also with the exterior handle located in the handle recess of the exterior skin of the vehicle door. The frame, which is pivotally received by the connecting element, is likewise pivotally connected with the support bracket via the journals and bearings provided in the support bracket. This pivoting connection is preferably established in the region of the opening provided for passage of the connecting elements of the exterior handle. The opening provided for supporting the cylinder lock is arranged following the former opening.
To simultaneously reduce the weight of the support bracket according to the invention, the support bracket may be made, for example, of plastic. Other connecting elements can also be made of plastic, as long as crash safety is taken into consideration.
With the disclosed configuration of the support bracket according to the invention, an additional Bowden cable may be used to operatively connect the support bracket and/or the cylinder lock with additional functional elements. For example, the additional Bowden cable may be used to operatively connect the cylinder lock with the internal lock mechanism.
Additional advantageous embodiments of the invention are recited as additional features in the dependent claims.
An exemplary embodiment of the invention will now be described in detail with reference to the corresponding drawings.
The support bracket 1 according to
Based on this design of the support bracket 1 with the lock-handle connection, the crash safety can be improved by associating a Bowden cable connection 8 with the support bracket 1 which is releasably connected with the downwardly depending longitudinal side 9 of the support bracket 1 so as to be safe in a crash. As seen in
As also seen in
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20060219044 A1 | Oct 2006 | US |