WO2022135820A1

WO2022135820A1 - Door handle arrangement of a motor vehicle

Info

Publication number: WO2022135820A1
Application number: PCT/EP2021/082921
Authority: WO
Inventors: Dirk Wittwer; Matthias Löw; Stefan MÖNIG; Michael Theidel; Alin Dincu; Michael KEMNITZ; Ovidiu Gruescu
Original assignee: Huf Hülsbeck & Fürst Gmbh & Co. Kg
Priority date: 2020-12-22
Filing date: 2021-11-25
Publication date: 2022-06-30
Also published as: CN116635603A; EP4217563A1; DE102020134708A1

Abstract

The invention relates to a door handle arrangement (4) of a motor vehicle (1), comprising: a support element (9) with a receiving space (10); a handle element (5) which is mounted on the support element (9) and which is movable between a rest position and an operating position; a flap element (6) which is movably mounted on the support element (9); a locking mechanism (18) which holds the flap element (6) in a closed position; and an actuator (23), wherein the flap element (6) is designed to be movable towards an open position and into an intermediate position in which the locking mechanism (18) is designed to release the flap element (6) for a movement into the open position, wherein in normal operation the flap element (6) is designed to be manually movable by a user (7) from the closed position into the intermediate position and wherein in auxiliary operation the actuator (23) is designed to move the flap element (6) from the closed position into the intermediate position.

Description

Motor vehicle door handle assembly

The invention relates to a door handle arrangement of a motor vehicle, having a carrier element with a receiving space, a handle element movably mounted on the carrier element and which can be moved between a rest position, in which the handle element is arranged countersunk within the receiving space, and an actuated position, in which the handle element is opening a door or flap of the motor vehicle is arranged outside the receiving space, is movable, and a flap element movably mounted on the carrier element, which is arranged to cover the handle element in a closed position and which is arranged releasing access to the handle element in an open position.

Such a door handle arrangement of a motor vehicle is known from the prior art and has a handle element which, in its rest position, is sunk on a door or flap of the motor vehicle so as not to create any disadvantageous air resistance when the motor vehicle is being driven and to improve the overall aesthetic impression of the motor vehicle to increase. In the known door handle arrangements, in normal operation the door handle arrangement must first be moved from a closed position, in which the flap element covers the handle element, to an open position, in which the user can access, before the handle element can be used manually by a user has the handle element and can actuate the handle element to open the door or hatch of the motor vehicle. The movement of the flap element into the opening position is carried out by the user himself, who knows the position of the handle element arranged behind the flap element and who also knows the locking mechanism in order to open the flap element accordingly to move the closed position to the open position. In the case of an auxiliary operation, which is to be carried out, for example, in the event of a vehicle accident, the user is inside the motor vehicle and is usually injured, so that he cannot provide any assistance on how to gain access to the handle element in order to open the door or hatch of the vehicle Open motor vehicle and rescue the injured user from inside the vehicle. A first responder at the scene of an accident must first learn the location of the handle member and how the latch mechanism works to move the flap member from the closed position to the open position in order to gain access to the handle member. In the event of a vehicle accident, this costs important time, and in some cases vital time, in order to rescue an injured person from inside the motor vehicle.

The object of the invention is to create a solution by which, in a door handle arrangement, for example in the event of a vehicle accident, the flap element is moved from its closed position into the open position without the help of a person in order to expose the handle element and provide direct access to the handle element to guarantee.

This object is achieved according to the invention by a door handle assembly of a motor vehicle having the features of claim 1.

The door handle arrangement of a motor vehicle according to the invention has a carrier element with a receiving space, a handle element movably mounted on the carrier element, which is arranged between a rest position, in which the handle element is recessed within the receiving space, and an actuated position, in which the handle element is used to open a door or flap of the motor vehicle is arranged outside the receiving space, is designed to be movable, a flap element movably mounted on the carrier element, a locking mechanism fastened to the carrier element, which flap element in a closed position, in which the flap element covers the grip element, and a motor-driven actuator, which is fastened to the carrier element. The flap element is spring-loaded in the direction of an opening position in which the flap element is arranged releasing access to the gripping element, the flap element being designed to be movable into an intermediate position in which the locking mechanism allows the flap element to move into the opening position is releasing trained. In or for normal operation, the flap element is designed to be movable manually by a user from the closed position into the intermediate position. In or for auxiliary operation, the motor-driven actuator is designed to move the flap element from the closed position into the intermediate position. For the purposes of the invention, auxiliary operation means, for example, operation of the door handle arrangement in an accident situation in which a crash signal is generated, which puts the motor-driven actuator into operation, so that the motor-driven actuator opens the flap element effected so that, for example, a first aider at the scene of the accident immediately recognizes where the gripping element for opening a door or hatch of the motor vehicle is located.

Advantageous and expedient refinements and developments of the invention result from the dependent claims.

The invention provides a door handle arrangement for a motor vehicle which is characterized by a simple and inexpensive design. Because the motor-driven actuator is designed to move the flap element from the closed position to the intermediate position in auxiliary operation, a first aider in the event of a vehicle accident, for example, does not need to know exactly where the grip element is to open the door or flap of Motor vehicle is still a precise knowledge of how the locking mechanism for moving the flap element from the closed position to the Öffenstellung works. The invention moves the flap element, for example in the event of a vehicle accident, with the help of the motor-driven actuator into the intermediate position, from which the flap element then moves automatically into the open position as a result of the spring force acting in the open position. With the flap element in the open position, a first aider immediately recognizes the exact arrangement of the grip element and has immediate access to the grip element, so that no valuable time is lost in locating the grip element and rescuing an injured person Inmates can be done immediately. The invention uses the motor-driven actuator to simulate a manual movement of the flap element caused by a user from the closed position into the intermediate position, which means that the flap element moves automatically into the open position due to the spring preload.

In an embodiment, the invention provides that the flap element is mounted pivotably on the carrier element via a pivot axis. As a result, the flap element swings open as it moves into the open position and protrudes from the vehicle body, which makes it much easier to find the grip element compared to a flap element that can be moved laterally and possibly disappears into the vehicle body.

To open the flap element, the invention provides in an embodiment that the flap element is movably mounted for movement into the intermediate position along a first movement path, and wherein the flap element is movably mounted for movement into the open position along a second movement path, wherein the first

Movement path opposite to the second movement path is designed to run. This movement is for both

Normal operation as well as for the Hil fsbetrieb remains the same, so that the locking mechanism is retained for the Normalbetrieb and for the Hil fsbetrieb. As a result, an additional construction for the locking mechanism is unnecessary and the functioning of the locking mechanism is independent of the operating mode (normal operation or auxiliary operation).

A structurally particularly favorable and robust option for realizing the locking mechanism is given in a further embodiment of the invention in that the locking mechanism is designed to work according to the push-push principle and a locking pin designed to interact with the locking mechanism is formed on the flap element. The push-push principle is known, for example, from ballpoint pens, in which pressing in an element either releases the spring-loaded ballpoint pen refill for writing or arranges the ballpoint pen refill in a recessed position.

It is also advantageous with regard to a favorable and robust construction of the locking mechanism in an embodiment of the invention if the locking mechanism has a funnel-shaped opening with spring-loaded retaining means and the locking pin has a head tapering conically towards its free end.

Accordingly, it is advantageous in a further embodiment of the invention if, when the flap element is moved into the closed position, the resiliently mounted retaining means are designed to let the head of the locking pin through and spring back in such a way that the flap element is arranged to be held in the closed position, and wherein when the flap element is moved in the intermediate position, the resiliently mounted retaining means are designed to shift and release the head of the flap element. A structurally simple and cost-effective option is given in a further embodiment in that the motor-driven actuator has a displacement element, which is movably mounted along the carrier element and which is designed to interact with a displacement web formed on the flap element and having an attack hook in such a way as to to arrange the flap element from the closed position to the intermediate position.

In a further expedient and advantageous embodiment, the invention provides that the displacement element is designed with a displacement contour and, with the aid of the motor-driven actuator, is moved into a displacement position in which the displacement contour grips behind the gripping hook and the flap element is arranged urging it into the intermediate position , and is designed to be movable into a release position in which the displacement contour is arranged so that it releases the attack hook.

A particularly favorable design for a compact design that requires little installation space is given in a further embodiment in that the displacement contour has a displacement section which is designed to run obliquely in a direction directed towards the gripping element. The displacement element can thus be moved along the carrier element and at the same time bring about a displacement of the flap element acting transversely to this movement.

To ensure error-free functioning and precise movement of the displacement element, a further embodiment of the invention provides that the displacement element has an upper side, from which the displacement contour extends, and an underside, with at least one guide rib and at least one guide arm protruding from the underside. wherein, for a guided movement of the displacement element along the carrier element, the at least one guide arm has at least one guide rail formed on the carrier element partially encompassed and the at least one guide rib is movably arranged in a guide recess formed in the guide rail.

Irrespective of the operating mode (normal operation or auxiliary operation), it is particularly desirable in normal operation that the flap element does not open with full force, but that the flap element moves more slowly from the closed position into the open position. For this purpose, the invention provides in a further embodiment that a damping element is attached to the carrier element and the flap element is operatively connected to the damping element, the damping element being designed to dampen movement of the flap element from the closed position into the open position.

Finally, in an embodiment of the invention, it is advantageous with regard to a simple and compact construction if the flap element is operatively connected to the damping element via a coupling linkage, wherein when the flap element moves from the closed position into the open position, the coupling linkage moves against a force exerted by the damping element damping force moves .

It goes without saying that the features mentioned above and those still to be explained below can be used not only in the combination specified in each case, but also in other combinations or on their own, without departing from the scope of the present invention. The scope of the invention is defined only by the claims.

Further details, features and advantages of the subject matter of the invention result from the following description in connection with the drawing, in which a preferred exemplary embodiment of the invention is shown. In the drawing shows: Figure 1 is a schematic side view of a

Motor vehicle with several invention

door handle arrangements,

FIG. 2 shows a perspective front view of a door handle arrangement according to the invention, in which a flap element is arranged in a closed position,

FIG. 3 shows a further perspective front view of the door handle arrangement according to the invention, in which the flap element is arranged in an open position,

Figure 4 is a side perspective view of the

Door grip arrangement from FIG. 3, wherein a grip element of the

Türgriff f arrangement is operated by a user's hand,

Figure 5 is a perspective view of the

door handle arrangement and a locking device,

Figure 6 is another perspective view of the

Door handle f arrangement with the flap element in its open position,

FIG. 7 shows a perspective rear view of the door handle arrangement with the flap element in its open position,

FIG. 8 shows a further perspective rear view of the door handle arrangement, part of a carrier element of the door handle arrangement being hidden,

FIG. 9 shows a side perspective view of the flap element and a locking mechanism of the door handle arrangement,

FIG. 10 shows a perspective view of part of the flap element and a sliding element of the door handle arrangement,

FIG. 11 is a plan view of an upper side of the displacement element,

Figure 12 is a side view of an underside of the sliding element, FIG. 13 shows a perspective sectional view of the carrier element and the displacement element,

Figure 14 is a side view of the in its

Flap element arranged in the closed position, the grip element arranged in its rest position and the displacement element,

FIG. 15 shows a side view of the flap element arranged in its open position, the grip element arranged in its operating position and the displacement element,

FIG. 16 shows a plan view of the upper side of the displacement element and part of the flap element, the flap element being arranged in its closed position and the displacement element being arranged in a release position,

Figure 17 is a plan view of the top of the sliding element and part of the flap element, the flap element being arranged in a position lying between the release position and an intermediate position and the sliding element being arranged in a position lying between the release position and a sliding position, and

FIG. 18 is a plan view of the top of the slide element and part of the flap element, the flap element being arranged in the intermediate position and the slide element being arranged in the slide position.

FIG. 1 shows an example of a motor vehicle 1 in the form of a passenger car, which in the example has a number of doors 2 and a flap 3 . The doors 2 and the flap 3 are closed with the aid of a door grip arrangement 4 arranged and fastened on the motor vehicle 1 and can be opened by means of a grip element 5 (see, for example, FIG. 3). Both visible doors 2 and the flap 3 show the respective door handle arrangement 4 as an example and wherein a flap element 6 covers the grip element 5 when the flap element 6 is arranged in a closed position. Opening a door 2 or Flap 3 requires that the flap element 6 is arranged in an open position in which the flap element 6 releases access to the handle element 5 and can thus be actuated by a user 7 (see, for example, Figure 4) and that a locking device 8 (see, for example, Figure 5) is in an unlocked state.

The door handle arrangement 4 is shown in more detail in FIGS. 2 to 8 and has a carrier element 9 which is fastened to one of the doors 2 or to the flap 3 of the motor vehicle 1 on the inside. A receiving space 10 is formed on the carrier element 9 (see, for example, FIG. 2), in which the handle element 5 is housed and movably mounted. The handle element 5 is movably mounted on the carrier element 9 between a rest position, which can be seen in FIG. 3, and an operating position shown in FIG. In the rest position, the handle element 5 is arranged sunk within the receiving space 10, whereas in the actuated position the handle element 5 for opening the door 2 or flap 3 of the motor vehicle 1 is arranged outside the receiving space 10. The flap element 6 is also movably mounted on the carrier element 9, with the flap element 6 being in the closed position shown in FIG. 2, in which the flap element 6 covers the handle element 5 in its rest position, and in the open position shown in FIG 6 is arranged releasing access to the grip element 5, can take. In FIG. 3, however, the handle element 5 is still in its rest position and is arranged inside the receiving space 10 .

The flap element 6 has a disk-shaped base body 25, from which a lever arm 26 extends, as can be seen, for example, in FIG. About the lever arm 26, the flap element 6 is attached to a pivot axis 24 which is rotatably mounted on the support member 9, so that the flap element 6 via the pivot axis 24 to the Support element 9 is pivotally mounted. The flap element 6 is spring-loaded in the direction of the open position, with an opening spring 11 being mounted on the carrier element 9 and exerting a force on the flap element 6 urging the flap element 6 in the direction of the open position. The opening spring 11 is designed as a leg spring and is supported with a first leg on the flap element 6 , whereas a second leg is supported on the carrier element 9 .

The gripping element 5 has an actuating section 12 and a coupling section 14 , as can be seen from FIG. 15, for example. The operating section 12 can be gripped and operated by a user 7 , whereas at least a part of the coupling section 14 is arranged in the rest position of the gripping element 5 in a receiving sleeve 15 mounted on the carrier element 9 . The coupling section 14 is mechanically connected to the locking device 8 via a Bowden cable 16 which belongs to a Bowden cable system 17 . As can be seen by viewing FIGS. 7 and 8 together, the Bowden cable system 17 is releasably attached to the back of the carrier element 9 and covers the receiving sleeve 15 through which the Bowden cable 16 extends to the coupling section 14 to which the Bowden cable 16 is connected.

In order to be able to hold the flap element 6, which is spring-loaded in the direction of the opening position, in the closed position against the force of the opening spring 11, a locking mechanism 18 is fastened to the carrier element 9, as can be seen, for example, in FIGS is . The locking mechanism 18 is designed to work according to the push-push principle, with a locking pin 19 designed to interact with the locking mechanism 18 being integrally formed on the flap element 6 . This locking pin 19 has a head 20 tapering conically towards its free end. In contrast For example, the locking mechanism 18 has a funnel-shaped opening 21 with spring-loaded retaining means 22 (see, for example, FIG. 9). When the flap element 6 is moved into the closed position, the resiliently mounted retaining means 22 allow the head 20 of the locking pin 19 to pass through, the retaining means 22 being designed to be resilient in such a way that the flap element 6 is held in the closed position.

So that the flap element 6 can be moved into the open position by the force of the opening spring 11, the flap element 6 must first be moved from the closed position into an intermediate position. The movement into the intermediate position is a movement which opposes the movement in the opening direction. When the flap element 6 is moved into the intermediate position, the resiliently mounted retaining means 22 are displaced as a result of the displacement releasing the head 20 of the flap element 6 . Accordingly, the locking mechanism 18 is designed to release the flap element 6 for a movement into the open position, a movement of the flap element 6 into the intermediate position being necessary before the movement into the open position. In normal operation, the flap element 6 is moved manually by a user 7 from the closed position into the intermediate position, whereupon the flap element 6 then opens automatically.

The door handle arrangement 4 according to the invention also has a motor-driven actuator 23 which is fastened to the rear of the carrier element 9, as is shown in FIGS. 7 and 8, for example. In an auxiliary operation, such as in the event of a vehicle accident, the motor-driven actuator 23 is designed to move the flap element 6 from the closed position into the intermediate position. In this case, a crash signal generated by the vehicle control system of motor vehicle 1, which, among other things, is used to trigger an airbag is used, the motor-driven actuator 23 in operation to move the flap element 6 in the intermediate position. To move the flap element 6 from the closed position to the intermediate position, the motor-driven actuator 23 is equipped with a displacement element 27, as can be seen, for example, in FIG 27 to obtain . The displacement element 27 is movably mounted along the carrier element 9 and interacts with a displacement web 28, which is formed on the flap element 6, with the locking pin 19 being arranged between the lever arm 26 and the displacement web 28 and with the displacement web 28 and the Latch pin 19 extend parallel to each other. To put it more precisely, the displacement element 27 interacts with a gripping hook 29 which is formed on the free end of the displacement web 28 (see, for example, FIGS. 9, 10 and 14 to 18). The displacement element 27 is designed to interact with the displacement web 28 formed on the flap element 6 and having the gripping hook 29 in order to move the flap element 6 from the closed position into the intermediate position. The displacement element 27 is coupled to the motor-driven actuator 23 and performs a linear movement caused by the actuator 23 along the carrier element 9 when auxiliary operation is present and the motor-driven actuator is accordingly in operation. The displacement element 27 is designed with a displacement contour 30 as shown in FIGS. 11, 12 and 16 to 18, for example. During the linear movement of the displacement element 27 along a section of the carrier element 9, the displacement element 27 is moved from a release position into a displacement position. In the figure 16, the displacement element 27 is arranged in a release position, in which the displacement contour 30 outside of the movement path of the Sliding web 28 is arranged so that at one of a

User 7 caused movement of the flap member 6 from the

Rest position in the intermediate position of the locking mechanism 18 releases the locking pin 19 and the flap element 6 can pivot unhindered by the displacement contour 30 into the opening position. The flap element 6 is moved from the rest position to the intermediate position along a first movement path 31 which is indicated by the arrow 31 in FIG. The flap element 6 is then moved into the open position along a second movement path 32 which is indicated by way of example by the arrow in FIG. This movement of the flap element 6 described above is carried out during normal operation of the door handle arrangement 4 and is effected by a user 7 . In the case of an auxiliary operation as described above, the flap element 6 is moved with the aid of the motor-driven actuator 23 and the displacement element 27 from the rest position (see Figure 16) into the intermediate position (see Figure 18), with Figure 17 showing an intermediate position of the Flap element 6 shows. In the auxiliary mode, the displacement element 27 is moved with its displacement contour 30 from the release position (see FIG. 16) into the displacement position (see FIG. 18), with FIG. 17 also showing an intermediate position of the displacement element 27 with its displacement contour 30. During the movement into the displacement position, the displacement contour 30 grips behind the attack hook 29 of the displacement web 28 of the flap element 6 and pushes the flap element 6 into the intermediate position when the displacement element 27 has reached the displacement position, so that the locking mechanism 18 releases the flap element 6 . so the motor-driven actuator 23 moves the displacement contour 30 outside the path of movement of the engaging hook 29 of the displacement web 28 , this position not necessarily having to be the release position again. The flap element 6 can then pivot unhindered from the intermediate position into the open position and release the grip element 5 without a user 7 having to take action. The movement of the displacement element 27 runs transversely to the displacement web 28 in the auxiliary mode. As can also be seen from Figures 11 and 16 to 18, the displacement contour 30 has a displacement section 33, which is designed to run obliquely in a direction directed towards the grip element 5 and which is used for a continuous and evenly occurring displacement of the flap element 6 in the intermediate position is responsible. The displacement element 28 has an upper side 34 , from which the displacement contour 30 extends, and an underside 35 . In order for the displacement element 28 to carry out a reliably guided movement in auxiliary operation, guide ribs 36 and guide arms 37 protrude from the underside 35, as can be seen in FIGS. However, an embodiment in which only one guide rib and one guide arm or more than two guide ribs and more than two guide arms are formed is also conceivable. In this case, for a guided movement of the displacement element 28 along the carrier element 9, the L-shaped guide arms 37 encompass a guide rail 38 embodied on the carrier element 9, at least in sections. Furthermore, the guide ribs 36 are movably arranged in corresponding guide recesses 39 which are formed in the guide rail 38 (see in particular FIG. 13). It should be noted that only part of the flap element 6 is shown in FIGS this part can be designed as a separate component which is screwed onto the flap element 6 .

So that the flap element 6 is not moved into the open position at too high a speed, especially during normal operation, and the hand of the user 7 that has not yet retreated is injured as a result of the force of the swinging open, a damping element 40 is attached to the carrier element 9, which is connected to the flap element 6 is operatively connected (see for example FIGS. 14 and 15). Consequently, the damping element 40 is designed to dampen a movement of the flap element 6 from the closed position into the open position. As can be seen from FIGS. 14 and 15, the flap element 6 is operatively connected to the damping element 40 via a coupling linkage 41 . When the flap element 6 moves from the closed position into the open position, the coupling linkage 41 moves against a damping force exerted by the damping element 40 . The coupling linkage 41 consists of a first coupling lever 42, which protrudes from the flap element 6, and a second coupling lever 43, which is rotatably mounted on the damping element 40 and has a slot-shaped recess 44, in which a pin 45 of the first coupling lever 42 is arranged is (see, for example, FIG. 7). When the flap element 6 moves into the opening position, the first coupling lever 42 acts on the second coupling lever 43 and rotates the second coupling lever 43 against a counterforce exerted by the damping element 40, the force of the opening spring 11 being greater than the counterforce of the damping element 40 . The slot-shaped recess 44 is used for tolerance compensation and for freedom of movement of the first coupling lever 42 at the start of the opening movement of the flap element.

The invention described is of course not limited to the embodiment described and illustrated. In the embodiment shown in the drawing numerous modifications obvious to those skilled in the art, depending on the intended application, can be made without departing from the scope of the invention. The invention includes everything that is contained in the description and/or shown in the drawing, including that which deviates from the specific exemplary embodiment that is obvious to a person skilled in the art.

Claims

patent claims

1. Door handle arrangement (4) of a motor vehicle (1), having a carrier element (9) with a receiving space (10), a on the carrier element (9) movably mounted handle element (5) which between a rest position in which the handle element ( 5) is arranged sunk within the receiving space (10), and an operating position in which the handle element (5) for opening a door (2) or hatch (3) of the motor vehicle (1) is arranged outside the receiving space (10), movable a flap element (6) which is movably mounted on the carrier element (9), a locking mechanism (18) which is fastened to the carrier element (9) and which holds the flap element (6) in a closed position in which the flap element (6) holds the handle element ( 5) covered, and a motor-driven actuator (23) which is attached to the carrier element (9), the flap element (6) in the direction of an opening position in which the flap element (6) has access to the handle element (5) is releasably arranged, is spring-loaded, and is designed to be movable into an intermediate position, in which the locking mechanism (18) is designed to release the flap element (6) for movement into the open position, with the flap element (6 ) is designed to be movable manually from the closed position into the intermediate position by a user (7), and wherein in an auxiliary operation the motor-driven actuator (23) is designed to move the flap element (6) from the closed position into the intermediate position.

2. Door handle arrangement (4) according to claim 1, wherein the flap element (6) via a pivot axis (24) on the carrier element (9) is pivotally mounted.

3. Door handle assembly (4) according to claim 1 or 2, wherein the flap member (6) for movement into the intermediate position along a first movement path (31) is movably mounted, and wherein the flap member (6) fnungsstellung for movement into the open position is movably mounted along a second path of motion (32), wherein the first path of motion (31) is designed to run in the opposite direction to the second path of motion (32).

4. Door handle assembly (4) according to any one of the preceding claims, wherein the locking mechanism (18) is designed to work according to the push-push principle and on the flap element (6) with the locking mechanism (18) cooperating trained locking pin (20) is formed is.

5. Door handle arrangement (4) according to claim 4, wherein the locking mechanism (18) has a funnel-shaped opening (21) with spring-mounted retaining means (22) and the locking pin (19) has a head (20) tapering conically towards its free end .

6. Door handle arrangement (4) according to claim 5, wherein when the flap element (6) is moved into the closed position, the resiliently mounted retaining means (22) are designed to allow the head (20) of the locking pin (19) to pass through and spring back in such a way that the flap element ( 6) being held in the closed position, and wherein when the flap element (6) is moved into the intermediate position, the resiliently mounted retaining means (22) shifting and the head (20) of the flap element (6) are formed releasing.

7. Door handle arrangement (4) according to one of the preceding claims, wherein the motor-driven actuator (23) has a displacement element (27) which is movably mounted along the carrier element (9) and which is formed with a flap element (6) and a sliding web (28) having an engagement hook (29) is designed to interact in such a way as to arrange the flap element (6) from the closed position into the intermediate position.

8. Door handle arrangement (4) according to claim 7, wherein the displacement element (27) is designed with a displacement contour (30) and, with the aid of the motor-driven actuator (23), is moved into a displacement position in which the displacement contour (30) releases the hook (29 ) engages behind and the flap element (6) is arranged in an urging manner into the intermediate position, and is designed to be movable into a release position in which the displacement contour (30) is arranged releasing the engagement hook (29).

9. Door handle arrangement (4) according to claim 8, wherein the displacement contour (30) has a displacement section (33) which is formed to run obliquely in a direction directed towards the handle element (5).

10. Door handle assembly (4) according to any one of claims 7, 8 or 9, wherein the displacement element (27) has an upper side (34), from which the displacement contour (30) extends, and an underside (35), wherein of at least one guide rib (36) and at least one guide arm (37) protrude from the underside (35), resulting in a guided movement 21 of the displacement element (28) along the carrier element (9), the at least one guide arm (37) at least partially encompasses a guide rail (38) formed on the carrier element (9) and the at least one guide rib (36) in a guide rail (38) molded guide recess

(39) is movably arranged.

11. Door handle assembly (4) according to any one of the preceding claims, wherein on the carrier element (9) has a damping element

(40) is fixed and the flap element (6) is operatively connected to the damping element (40), the damping element (40) being designed to dampen a movement of the flap element (6) from the closed position into the open position.

12. Door handle arrangement (4) according to claim 11, wherein the flap element (6) is operatively connected to the damping element (40) via a coupling linkage (41), wherein when the flap element (6) moves from the closed position to the open position, the Coupling linkage (41) moves against one of the damping element (40) exerted damping force.