The present invention relates to the field of vehicle door handles, in particular of the type with a flushing door handle grip. Such vehicle door handle assemblies generally comprise an electric motor which, when actuated, moves the handle grip between a flush position in which the handle grip is flush with an exterior door panel surface and a ready position in which said handle grip is protruding and graspable by a user. In the flush position, the handle grip is flush with the exterior surface of the door body. The air drag of the vehicle can consequently be reduced, while the visual aspect of the vehicle can be streamlined. In the ready position, the handle grip is protruding from said exterior surface, so as to be graspable by a user. The user can seize the handle and pull on it in order to unlock and/or open the vehicle door.
Such vehicle door handle assemblies generally comprise a back-up mechanism, to enable the opening of the door in case of, for example, electric motor or car battery failure, that is when the electric motor cannot be actuated.
This back-up mechanism comprises for example a push-push mechanism, in which the user pushes the handle grip inwards from its flushing position until reaching a clicking position in which a preloaded spring is released. Said preloaded spring, when released, pushes the handle grip from the inward clicking position in the protruding ready position.
Such a back-up mechanism may comprise an important number of elements, which occupy an important space inside the handle. Consequently, there is a need for a simple, compact architecture of the back-up mechanism for the vehicle door handle that enables a user to easily interact with said handle in case of an electric motor or car battery failure.
It is therefore a goal of the present invention to overcome at least partially the previous drawbacks of the state of the art and to provide a cost-effective and space-saving solution.
Thus, the present invention refers to a vehicle door handle assembly comprising a handle grip which is movable between a flushing position in which it is flush with an exterior door panel surface and a ready position in which it is protruding and graspable by a user, wherein the vehicle door assembly also comprises a back-up mechanism, said back-up mechanism comprising a flap covering at least partially a cavity arranged inside the handle grip, the flap being movable between a closed position in which it covers the cavity inside the handle grip and an open position in which it permits access to the inside of said cavity, hence allowing a user to insert his fingers or an object inside the cavity and to pull on the handle grip in order to move it from the flushing position into the ready position. The vehicle door handle assembly may present one or more of the following characteristics, taken separately or in combination.
According to a further aspect of the invention, the flap is movable around a pivot axis located on an edge of the cavity arranged inside the handle grip.
According to a further aspect of the invention, the vehicle door handle assembly comprises an elastic return element configured to move the flap from the open position back into the closed position.
According to a further aspect of the invention, the cavity and the flap are located in a middle section of the handle grip.
According to a further aspect of the invention, the flap has a different colour than the handle grip.
According to a further aspect of the invention, at least a portion of the external surface of the flap has a different texture to the touch than the handle grip.
According to a further aspect of the invention, the vehicle door handle assembly comprises a bracket which is linked to the handle grip and the bracket comprises a stopper mechanism for adjusting the position of the handle grip in the flush position.
According to a further aspect of the invention, the stopper mechanism comprises a contact surface that is intended to make contact with a portion of the handle grip in order to adjust the position of the handle grip in the flush position.
According to a further aspect of the invention, the stopper mechanism comprises a housing, an elastic return element and a cap.
According to a further aspect of the invention, the housing and the cap present a geometry of revolution.
In these figures, identical elements have the same reference numbers. An XYZ trihedron is shown in some figures to define the orientation of the handle grip in space. A first direction, noted X, corresponds to a longitudinal direction of the handle grip. A second direction, denoted Y, is directed to the inner side of the vehicle door handle assembly. Finally, a third direction, denoted Z, points towards a general upward direction. The directions, X, Y, Z, are orthogonal to each other.
The following achievements are examples. Although the specification refers to one or several embodiments, it does not imply that each reference refers to the same embodiment or that the features apply only to a single embodiment. Simple features of different embodiments can also be combined to provide other embodiments.
In the following description, the terms up, upper, low, lower, vertical, horizontal refer to relative positions or directions when the door handle is assembled to a vehicle. In the description, certain items can be indexed, as the first item or second item. In this case, it is a simple indexing to differentiate and name similar but not identical elements. This indexing does not imply a priority of one element over another and such names can easily be interchanged without going beyond the scope of the present description. Nor does this indexing imply an order in time.
The handle grip 3 of the vehicle door handle assembly is also linked to an electric motor (not illustrated) which, when actuated, moves the handle grip 3 between the flush position and a ready position in which the handle grip 3 is protruding and graspable by a user. For instance, the motor can push one end of the handle grip 3 in an outward direction. In that case, the handle grip 3 is moved around a substantially vertical axis. The ready position is not shown in the figures.
Once the handle grip 3 is in the ready position, the user can grasp said handle grip 3 and unlatch the door by pulling it in a further protruding unlocking position, in which the handle grip 3 interacts (via a Bowden cable, a rotating pin or a gear mechanism) with a latch mechanism and unlatches the door.
The handle grip 3 is for example made of two half-shells 3a, 3b that are assembled together. The assembled handle grip 3 is hence at least partially hollow inside.
The vehicle door handle assembly also comprises a back-up mechanism which enables a user to manually move the handle grip 3 between the flushing position and the ready position in case of an electric failure, such as a battery failure.
This back-up mechanism comprises a flap 5 which covers at least partially a cavity arranged inside the handle grip 3. In the embodiment shown in
According to the embodiment illustrated in
The flap 5 is movable between a closed position (
When the flap 5 is in the open position, it permits access to the inside of the cavity, hence allowing a user to insert his fingers or an object, like a hook or a key for instance, inside the cavity and to pull on the handle grip 3 in order to move it from the flushing position to the ready position. For instance, the user can curl his fingers around an edge of the hole 7 and pull on said edge in order to move the handle grip 3 from the flush position into the ready position in case of an electric failure.
According to another embodiment, a pulling element can be located inside the cavity. A user can pull on this pulling element with his fingers or with an object in order to move the handle grip 3 from the flush position into the ready position.
The flap 5 can be movable around a pivot axis P located on an edge of the cavity arranged inside the handle grip 3, as it is shown in
The flap 5 may comprise at least one hinge 9 configured to cooperate with a rod 11 that is aligned with the pivot axis P. In the embodiment illustrated on
The flap 5 and the pivot axis P may be arranged in such a way that in order to reach the open position, the flap 5 must be moved inwards. A simple push on the exterior side of the flap can hence be enough to move it from the closed position into the open position. In the open position, the flap 5 is then located inside the cavity of the handle grip 3.
According to a preferred embodiment of the flap 5 illustrated in
In
In an embodiment not shown, the flap 5 may comprise a single stopper 13 located, for example, in the middle of the edge opposite the edge equipped with the hinge or hinges 9.
According to a different embodiment (not shown in the figures), the flap 5 and the pivot axis P around which the flap 5 rotates can be arranged in such a way that the flap 5 protrudes from the outside surface of the outer shell 3a of the handle grip 3 when the flap 5 is in the open position. In this particular embodiment, the flap 5 may be used as an additional pulling element for moving the handle grip 3 from the flush position into the ready position. In this particular embodiment, the flap 5 does not comprise the stoppers 13 described earlier.
The back-up mechanism can also comprise an elastic return element 15 configured to move the flap 5 from the open position back into the closed position. According to the embodiment illustrated in
For example, one end of the elastic return element 15 is attached to the flap 5 while the other end of the elastic return element 15 is attached to another part of the vehicle door handle assembly. Such an elastic return element 15 ensures that the flap 5 is moved back into the closed position even if the user makes little effort to put the flap 5 back in the original position after it has served its purpose. The elastic return element 15 also ensures that the flap 5 doesn't move freely when the car is used (acceleration, turns, shifts, slope change, . . . ).
According to a specific embodiment, the flap 5 can have a different colour than the handle grip 3, making it easier to spot when searching for the cavity said flap 5 covers. For example, the handle grip 3 can have a light colour and the flap 5 a dark colour, or vice-versa.
Moreover, at least a portion of the external surface of the flap 5 can have a different texture to the touch than the handle grip 3. For example, the handle grip 3 can have a smooth surface while at least a portion of the external surface of the flap 5 can have a rough surface. This way the flap 5 can be easily found by touch and used even in the absence of light, by night for example. In another non-illustrated embodiment, the contour of the flap 5 may be illuminated to enable it to be delineated from the rest of the handle grip 3 in the absence of light, by night for example.
According to another embodiment (not shown in the figures), the flap 5 can be slid from the closed position in which it covers the cavity inside the handle grip 3 into the open position in which it gives access to the cavity. In this particular embodiment, the flap is not pivoted around an axis, but slid sideways in a translational movement along the longitudinal direction of the handle grip 3, for example.
After multiple use of the handle grip 3 and/or the back-up mechanism, it might happen that in the flush position, the handle grip 3 is not flush with the door panel any more. In other words; alignment errors may occur over time, which may result in the handle grip 3 protruding a bit from the exterior surface of the door panel. This can lead to an unaesthetic arrangement and a less effective streamline. In order to prevent such a disruption of the position of the handle grip 3, the bracket 2 of the vehicle door handle assembly 1 can be equipped with a stopper mechanism 17 for adjusting the position of the handle grip 3 in the flush position after it has been used.
In addition, the stopper mechanism 17 can also be used to adjust the flush position of the handle grip 3 even when the handle grip 3 is new or first installed. The mechanism can enable the flush position by itself or be a solution to compensate for a deviation as described.
The stopper mechanism 17 does this by making contact with a specific portion of the handle grip 3 whenever the latter is moved back into the flush position. For instance, the inner half-shell 3b of the handle grip 3 can comprise a bent portion 31 on each of its longitudinal endings, such as illustrated in
The tip 27 of said bent portion 31 comes into contact with a surface of the stopper mechanism 17 in order to repeatedly adjust the position of the handle grip 3 in the flush position, as shown in
According to one embodiment of the stopper mechanism 17 illustrated in
The cap 23 has a mostly longitudinal shape. One end of the cap 23 comprises a flat surface 25 that is shaped like a disk. This disk-shaped flat surface 25 is intended to make contact with the tip 27 of the bent portion of the inner half-shell 3a of the handle grip 3 in order to adjust the flush position of said handle grip 3.
The housing 19 can have a geometry of revolution and present for instance an overall cylindrical shape. In particular, the inside of the housing 19 can present an overall cylindrical shape. The end of the housing 19 located on the opposite side of the disk-shaped flat surface 25 of the cap 23 may comprise a hexagonal-shaped head, as shown in
The elastic return element 21 can have the form of a helical spring that is arranged inside the cylindrical opening of the housing 19. The elastic return element 21 is rigid enough to withstand the force that will be received from the handle grip 3 when the latter is being moved. In the embodiment where the elastic return element 21 is formed like helical spring, part of the coils of this elastic return element 21 can be arranged around the rod-shaped middle section of the cap 23.
The tip of this rod-shaped middle section can comprise an enlarged section 29 configured to retain the spring coils of the elastic return element 21 around said middle section. When assembled, the enlarged section 29 of the rod-shaped middle section of the cap 23 is stored inside the cylindrical opening of the housing 19.
Unlike a back-up mechanism comprising a push-push mechanism in which all the parts are interconnect, the flap 5 and the stopper mechanism 17 can work independently of each other. In case one of these features is deficient, it is possible to replace only the deficient part without having to replace the entire back-up mechanism.
It is therefore possible to provide a simple, compact and cost-effective architecture of the back-up mechanism for a vehicle door handle assembly that enables a user to easily interact with said handle in case of an electric motor or car battery failure.
Number | Date | Country | Kind |
---|---|---|---|
22158288.5 | Feb 2022 | EP | regional |