WO2019076400A1 - Motor vehicle door lock - Google Patents

Abstract

The invention relates to a motor vehicle door lock which is equipped with a locking mechanism (1, 2, 3) that substantially consists of a rotary latch (1) and a pawl (2, 3). Additionally, a retention element (7, 8) for a lever (12) of an actuation lever mechanism is implemented. In the retention position, the retention element (7, 8) keeps the lever (12) in the open position at least when the locking mechanism (1, 2, 3) is being opened until the rotary latch (1) has passed at least one pre-latching position of the locking mechanism (1, 2, 3). The retention element (7, 8) is designed in at least two parts with a first retention lever (7) and an additional second retention lever (8) which are connected together in an articulated manner. According to the invention, the two retention levers (7, 8) are coupled together by a one-sided freewheel.

Description

 Power door lock

Description:

The invention relates to a motor vehicle door lock, with a locking mechanism consisting essentially of catch and pawl, and with a storage element for a lever of an actuating lever mechanism, for example a trigger lever, wherein the storage element in its storage position the lever and thus the pawl at least when opening the locking mechanism in the open position holds until the catch has passed at least one Vorraststeilung of the locking mechanism, and wherein the storage element is at least in two parts with a first storage lever and a further second storage lever, which are hinged together.

Memory elements or storage levers are typically used in motor vehicle door locks to prevent a re-engagement of the pawl takes place in the rotary latch in an example, remotely triggered but not fully executed opening of the associated motor vehicle door. This process is often also referred to as "Vorrasthakeln." This generally no longer opening the vehicle door is possible or the motor vehicle door lock must first be closed again and the opening process to be repeated.This is not very comfortable then set when a motor drive to lift the pawl after the remote-controlled opening signal is then transferred back to its original position and the vehicle door is not fully open ..

In the generic state of the art according to DE 10 2006 032 033 A1 a two-part memory lever is realized. This has a support section, which is associated with a trigger or release lever. When the shutter-release button is pressed to reach the storage position, the shutter button will advance

Memory level of the associated rotary latch and leaves the memory level after passing the Vorraststeilung again. The support portion may be an element of a pivot lever of the trigger. In this way, a total of a rotary latch closure closing technology should be improved.

The teaching of DE 10 2010 007 532 A1, which is based on the Applicant, deals with a motor vehicle lock with a storage lever. In addition, the pawl there is associated with a stop buffer, which can be compressed and limited movements of the pawl.

From DE 10 2006 012 105 A1 discloses a motor vehicle door lock has become known, in which the local memory element is held by means of a spring, in particular when opening the locking mechanism in abutment against at least one lock component. The storage element is an angle lever rotatably mounted about a fixed axis. As a result, the reliability is to be increased in particular with regard to the storage element and at the same time a structurally simple design available. The prior art has proven itself in principle, when it comes to a total to ensure trouble-free opening of the locking mechanism, for example, an electric opening operation by means of an electric motor drive. In practice, however, there are often even more stringent requirements. For example, it is regularly worked so that the mentioned electromotive drive or opening drive works for cost reasons in only one direction. In order to avoid indifferent functional states at this point, it must be ensured in this context that the drive in question is fixed after completing a movement

or occupies a defined end position. There are no convincing solutions for this.

The invention is based on the technical problem of further developing such a motor vehicle door lock so that not only a perfect locking opening is made available for an electric opening, but the drive - if present - undergoes an additional fixation at least in its end position. To solve this technical problem, a generic motor vehicle door lock in the invention is characterized in that the two pivotally interconnected storage lever are coupled together by a one-way freewheel. In general, the storage element in its storage position ensures that the lever or release lever is kept in the open position until the locking mechanism is closed again. As a further consequence, the storage position of the storage element is generally canceled during the closing process before reaching the pre-ratchet division. The open position of the lever or release lever simultaneously causes the pawl acted upon thereby is also held in the open or lifted position relative to the rotary latch.

In addition, the design is typically such that the storage element in its storage position at the same time acts as a temporary block for an electric motor opening drive. The electromotive opening drive generally ensures that the lever or trigger lever or the entire operating lever mechanism is applied to typically, starting from the closed position of the locking mechanism, the pawl of

take off their engagement with the catch. For this purpose, the electromotive opening drive generally acts on the lever or release lever. Due to the fact that the storage element also acts as a temporary block for the electric opening drive in its storage position, according to the invention the storage element assumes a dual function. First of all, the storage element ensures that the lever or release lever and consequently the pawl acted upon by it when opening the locking mechanism is held in the open position until the catch has passed at least the pre-locking division of the locking mechanism. In addition, the storage element in its storage position then still assumes the function of the temporary block for the electromotive opening drive.

This is to be understood in the context of the invention that the storage element blocked in the storage position the electric motor opening drive. This is generally carried out and implemented in detail in such a way that the storage element holds the lever or release lever in the storage position and at the same time ensures the desired blockage of the electromotive opening drive.

As a result, it is possible to work within the scope of the invention with a particularly simple electromotive opening drive, namely one which operates and runs generally in only one direction of rotation. Because during the storage position of the storage element, the storage element ensures that the electromotive opening drive is held and thus blocked. As soon as the storage element leaves the storage position, the opening drive can thus easily return to its starting position in the said one direction or one direction of rotation. This is at the same time favors and allows that the memory element

is designed in two parts with the two hingedly interconnected memory levers according to the invention.

In detail, the design is such that the catch controls the second storage lever. For controlling the second storage lever, the rotary latch is advantageously equipped with a control contour.

Compared to the second storage lever, which is controlled by means of the rotary latch, the first storage lever is in turn controlled by the second storage lever. The first storage lever is equipped with a total stop for the second storage lever. The design is made such that the second memory lever is pivoted freely during an opening movement of the rotary latch relative to the first storage lever with the aid of the control contour on the rotary latch. That is, during the opening movement of the rotary latch, the first storage lever maintains its position and only the second storage lever is pivoted by means of the control contour on the rotary latch relative to the first storage lever, namely free, that is without the stop on the first storage lever or at all to interact with the first memory lever.

As a result, the one-way freewheel is realized. For the second storage lever can pivot freely in the opening movement of the catch relative to the first storage lever, so it is equipped with the freewheel in this opening movement of the catch. The freewheel is also one-sided insofar as it is observed only in connection with the opening movement of the rotary latch. By contrast, the closing movement of the rotary latch corresponds to a deviating sequence of functions.

The interpretation is made differently in a closing movement of the catch, which explains why the one-sided freewheel. In fact, the second memory lever moves against the stop during a closing movement of the rotary latch with the aid of the control contour. In this way, the first storage lever is taken from the second storage lever. Both storage levers are acted upon together by the control contour on the rotary latch.

The storage element is also equipped with an associated spring. The spring ensures that the storage element is biased as a whole in the direction of a system on the lever or in the direction of the lever or release lever. In addition, usually still another spring is provided, which is arranged in the region of the articulated connection between the two storage levers and unfolds effect at this point. In fact, the spring in question in the associated pivot ensures that the two storage levers are spaced from each other in the basic position. As a result, the second memory lever is not in this basic position on the stop of the first memory lever. Consequently, the force of the spring provided in the rotary joint must be overcome during the closing movement of the rotary latch by the control contour which drives the second storage lever against the stop. This can be easily realized and put into practice.

As a result, a motor vehicle door lock is provided, which is equipped with a functionally safe working memory element. In fact, the storage element reliably ensures that in its storage position of the lever or release lever and consequently the pawl acted upon by it is held in the open position. This open position is maintained until the catch has usually not only passed the Vorraststellung of Gesperres, but in the end the locking is closed again. This will

a great reliability provided and are avoided in particular during the opening process of the locking indifferent functional states or not clearly defined positions of the operating lever mechanism and in particular the release lever. In addition, the electromotive opening drive is additionally and additionally fixed. Because the storage element ensures in its storage position that the electric motor opening drive is held. The memory element thus acts as a temporary block. As a result, the electromotive opening drive is properly fixed after completing its opening movement and the position as it were frozen. The electromotive opening drive leaves this Blockadestellung overall only when the storage position of the memory element is released. This is usually only the case when the locking is closed again and before reaching the Vorraststeilung. As a result, the reliability is increased, with a relatively simple structure. Because the special design opens the possibility to make the electric motor opening drive so that it works only in one direction on the locking mechanism. Such a design is particularly easy and inexpensive to implement. Here are the main benefits.

In the following the invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment; 1 shows the motor vehicle door lock according to the invention in the closed position with the essential components,

Fig. 2 shows a detail of a perspective view of

Motor vehicle door lock according to Fig. 1,

3A to 3D show the motor vehicle door lock according to FIG. 1 during an opening operation in various functional positions, and FIGS. 4A to 4C show a closing operation following the completely open position according to FIG. 3D.

1 and 2, a motor vehicle door lock is initially shown once and in principle, which is equipped with a locking mechanism 1, 2, 3 of essentially rotary latch 1 and pawl 2, 3. In the embodiment and not limiting two pawls 2, 3 are realized, namely a actually blocking function taking pawl 3 and a so-called comfort pawl 2. In addition, a total of two associated release lever 4, 5 realized, namely a release lever 4 for the pawl 3 and another release lever 5, which is designed here as Vorrastauslosehebel and works primarily on the comfort latch 2.

The locking mechanism 1, 2, 3, as well as the respective release lever 4, 5 are mounted in total in a lock case 6, not expressly shown and merely indicated. This also applies to a storage element 7, 8, which in the exemplary embodiment is a two-part storage lever 7, 8. The storage element or the storage lever 7, 8 is composed of two storage levers 7, 8, which are hinged together in a pivot joint 9.

In fact, a first storage lever 7 and a second storage lever 8 are provided. The swivel joint 9 is fixedly mounted in the lock case 6. In addition, the hinge 9 is associated with a spring 10. The spring 10 provides

for the fact that the two storage levers 7, 8 are spread apart in the basic state illustrated in FIG. 1.

In the exemplary embodiment, the spring 10 operates in the counterclockwise direction shown in FIG. 1 and ensures that the second storage lever 8 is pivoted away from the first storage lever 1. The pivotal movement of the second storage lever 8 relative to the first storage lever 7 is also limited by a stop not explicitly shown.

In addition, another stop 1 1 is realized on the first storage lever 7, the meaning of which will be explained below. In the basic state shown in FIG. 1, the second storage lever 8 is spaced from the stop 1 1. The first storage lever 7 is designed arcuate. Thereby, the first storage lever 7 interact with its opposite end of the rotary joint 9 with a lever 12, which is a trip lever 12 in the embodiment.

2, it can be seen that an opening drive 12, 13, 14 is realized perpendicular to the scythe plane spanned by the ratchet 1, 2, 3 and consequently perpendicular to the main plane of the lock case 6. The electromotive opening drive 12, 13, 14 has an electric motor 14, which meshes with a arranged on its output shaft screw with a toothing, which is found on the outer periphery of a driven pulley 13. The driven pulley 13 in turn carries an actuating cam, which in turn operates on the lever or actuating lever 12, which in the exemplary embodiment is a triggering lever 12.

Once the electric motor 14 is energized so that the driven pulley 13 performs a direction indicated in FIG. 2 clockwise movement, the actuating cam of the driven pulley 13 operates on the actuating lever 12 and ensures that the actuating lever or trigger lever 12 at its cam distal end also in Fig. 2 indicated upward movement completes.

Such an upward movement corresponds to an opening (electric) process initiated by means of the electromotive drive 12, 13, 14. This can be initiated, for example, by remote control, by a switch operation associated with the outer door handle or also following a query by an operator in the course of a question and answer dialog.

In any case, the opening movement for the motor vehicle door lock and thus its locking mechanism 1, 2, 3 opens overall in that the lever or trigger lever 12 is moved upward in the illustration of FIG. 2 at its cam distal end and thereby the trigger lever 5 during the opening movement pivoted in relation to its by a bearing pin 1 5 defined axis of rotation in a clockwise direction. This becomes clear at the transition of the functional position corresponding to FIG. 1 to FIGS. 3A to 3D, which show the opening process in the individual phases. Of course, the same applies to the case that the opening process is not electrically, but mechanically simply by the fact that the relevant trigger lever 5 is pivoted by, for example, exposures of a door inside handle or outside door handle in the manner described.

The storage element 7, 8 now ensures in its in Fig. 3B achieved and consistently during the opening movement to the functional position according to the Fig. 3D retained storage position that the locking mechanism 1, 2, 3 is held in the open position. This open position of the locking 1, 2, 3 is in

Embodiment and not limiting retained until the rotary latch 1 has passed at least one Vorraststeilung of the locking mechanism 1, 2, 3, as observed in the functional position of FIG. 3C. According to the embodiment, the storage element 7, 8 in the storage position additionally ensures that the actuating lever 12 and thus the pawl 2 is held in the open position until the locking mechanism is closed again, d. H. until, after the end of the opening process according to FIG. 3D, a closing process is initiated after the functional position in FIG. 4A.

The one-sided freewheel expresses that in the embodiment of the second memory lever 8 at an opening movement of the rotary latch 1 relative to the first memory lever 7 by means of a control contour 16 is pivoted freely on the catch 1. This is illustrated in FIGS. 3A to 3D. In contrast, the second memory lever 8 moves at a closing movement of the rotary latch 1 against the stop 1 1 at the first memory lever 7. This ensures again the control contour 16, as can be seen in the associated sequence of functions in Figs. 4A to 4D in a closing operation. In this way, the control contour 16 on the rotary latch 1 in the closing process in question ensures that the second storage lever 8 moves against the stop 1 1 and thereby entrains a total of the first storage lever 1. In this case, so no freewheel is realized. It can be seen finally in Fig. 1, that according to the basic structure of the anchored in the lock case 6 bearing pin 15 not only provides for the rotatable mounting of the release lever 5, but coaxially thereto is interacting with the relevant release lever 5 comfort pawl 2 is mounted.

Finally, the pawl 3 is equipped with another anchored in the lock box 6 bearing pin 18 and the catch 1 with a corresponding bearing pin 19 for defining a respective axis of rotation , The function is as follows.

In Fig. 1, the motor vehicle door lock according to the invention with its locking mechanism 1, 2, 3 is shown in the closed position. The memory element 7, 8 assumes its basic position or basic position. If, starting from this closed position, the electric motor 14 is energized to open the locking mechanism 1, 2, 3, this ensures the already described upward movement at the cam-distal end of the actuating lever or trigger lever 12. This can be seen in the transition from FIG. 1 to FIG 3A. As a result, the actuation lever or release lever 12 raises the release lever 5 or pivots it about its axis of rotation defined by the bearing pin 15 in the clockwise direction.

The comfort pawl 2 follows the release lever 5 and thereby releases the catch 1, which opens in spring-assisted connection. For this purpose, a clockwise movement of the rotary catch 1, as indicated by an arrow in FIG. 3A, corresponds to the axis of rotation defined by the bearing pin 19. In the transition from FIG. 3A to FIG. 3B, the first storage lever 7 has moved counterclockwise about the axis defined by the pivot 9. For this counterclockwise movement provides the storage lever 7 associated spring 20, which biases the storage lever 7 in the direction of the lever or trigger lever 12.

While in the functional position according to FIG. 1 or the basic position of the storage element 7, 8 and the closed position of the locking mechanism 1, 2, 3, the first storage lever 7 acted upon by the spring 20 on the lever or release lever 12, now exists and when initiated by means of the electric motor drive 12, 13, 14 upward movement of the lever respectively trigger lever 12 the possibility that the first memory lever 7 is incident and the trigger lever 12 engages under. In fact, the first storage lever 7 is located on the underside of the release lever 12 and thereby ensures in the storage position of the storage element 7, 8 thus taken that the electric motor drive 12, 13, 14 is blocked at the same time. D. h., The storage element 7, 8 acts in its storage position from the phase shown in Fig. 3B at the same time as a temporary block for the electric motor opening drive 12, 13, 14. The catch 1 can open a total further, including the already mentioned spring-assisted counterclockwise movement corresponds to the axis defined by the bearing pin 19 axis. During this process and during the transition from the functional position according to FIG. 3B to FIG. 3C, the control contour 16 on the rotary latch 1 moves against the second storage lever 8.

During the further movement of the rotary latch in the counterclockwise direction and the transition from FIG. 3C to FIG. 3D, the control contour 16 on the rotary latch 1 ensures that the second storage lever 8 is pivoted about the axis defined by the rotary joint 9. The second storage lever 8 returns after passing the control contour 16 in its basic position relative to the first storage lever 7 back. In this basic position, the spring 10 in conjunction with the stop, not shown, provides for the associated spacing between the two storage levers 7, 8.

Throughout this process, the first storage lever 7 ensures that the temporary block for the electric opening drive 12, 13, 14 is maintained by its engagement with the lever or release lever 12. In addition, the trigger lever 12 ensures overall that in this entire opening operation starting from the Fig. 3B with the storage position taken there to the fully open position of the locking mechanism 1, 2, 3 in the representation of FIG. 3D, the comfort pawl 2 of the Rotary latch 1 is lifted and can not fall into the catch 1. In this way, the storage element 7, 8 in the storage position ensures that the locking mechanism 1, 2, 3 is held in the open position overall with the aid of the release lever 12. The locking mechanism 1, 2, 3 maintains this open position until a closing movement is initiated or the locking mechanism 1, 2, 3 is closed again.

It can be seen that the rotary latch 1 controls the second storage lever 8 with the aid of the control contour 16. On the other hand, the first storage lever 7 is controlled by the second storage lever 8, primarily in a closing movement as shown in Figs. 4A to 4C and described below. While the second memory lever 8 is freely pivoted in the above-described opening movement of the rotary latch 1 in the opening operation of FIGS. 3A to 3D with respect to the first memory lever 7 by means of the control contour 16 on the rotary latch 1, it is in contrast to be described below Closing process corresponding to FIGS. 4A to 4C to a forced movement of the two storage lever 7, 8, which explains why the concept of one-way freewheel.

Starting from the fully open functional position corresponding to the illustration in FIG. 3D, a closing process according to FIG

4A, that the rotary latch 1 performs a closing movement, thus pivoted about its axis defined by the bearing pin 19 in the counterclockwise direction indicated in Fig. 4A. As a result, the control contour 16 moves on the rotary latch 1 against the second storage lever 8 and moves the second memory lever 8 in this closing movement of the rotary latch 1 with the aid of the control contour 16 against the stop 11. This is done against the force of the spring 10. In this way, in a further movement of the control contour 16 and consequently the rotary latch 1, the first storage lever 7 is taken. The two storage levers 7, 8 are in this case temporarily rigidly coupled to each other via the stop 11.

As a result, the release lever 12 is released during the transition from the functional position according to FIG. 4A to FIG. 4B, because the first storage lever 7 following the joint movement of the two storage levers 7, 8 about the axis defined by the pivot 9 against the force of its spring 20 is pivoted in the transition from Fig. 4A to Fig. 4B in the clockwise direction. As a result, the release lever 12 is released from the first storage lever 7 and, overall, the storage position of the storage element 7, 8 is released, before the pre-ratchet division is reached (compare FIGS. 3C and 4B).

Since the release lever 12 as a result thereof assumes its basic position (again) and is no longer lifted, a total of the comfort pawl 2 can initially fall into the catch 1. Subsequently, the pawl 3 ensures the safety pawl 2 in the finally reached in Fig. 4C closed position or main locking position of the locking mechanism 1, 2, 3, again with the closed position 1, 2, 3 and the basic position of the memory element 7, the eighth corresponding to FIG. 1 corresponds.

Claims

1 . Motor vehicle door lock, comprising a locking mechanism (1, 2, 3) consisting essentially of a rotary latch (1) and a pawl (2, 3), and a memory element (7, 8) for a lever (12) of an actuating lever mechanism, for example a trigger lever (12 ), wherein the storage element (7, 8) holds in its storage position the lever (12) and thus the pawl (2, 3) at least when opening the locking mechanism (1, 2, 3) in the open position until the catch (1) at least one Vorraststeilung of the locking mechanism (1, 2, 3) has happened, and wherein the storage element (7, 8) is at least in two parts with a first storage lever (7) and a further second storage lever (8), which are hinged together, It is noteworthy that the two storage levers (7, 8) are coupled together by a one-way freewheel.

2. Motor vehicle door lock according to claim 1, characterized in that the storage element (7, 8) in its storage position, the lever (12) while in

Open position holds until the locking mechanism (1, 2, 3) is closed again.

3. Motor vehicle door lock according to claim 1 or 2, characterized in that the storage position of the storage element (7, 8) is released during the closing operation before reaching the Vorraststeilung.

4. Motor vehicle door lock according to one of claims 1 to 3, characterized in that the rotary latch (1) controls the second storage lever (8).

5. Motor vehicle door lock according to claim 4, characterized in that the rotary latch (1) for controlling the second storage lever (8) is equipped with a control contour (16).

6. Motor vehicle door lock according to one of claims 1 to 5, characterized in that the first storage lever (7) by the second storage lever (8) is controlled.

7. Motor vehicle door lock according to one of claims 1 to 6, characterized in that the first storage lever (7) with a stop (1 1) for the second storage lever (8) is equipped.

8. Motor vehicle door lock according to one of claims 1 to 7, characterized in that the second storage lever (8) during an opening movement of the rotary latch (1) relative to the first storage lever (7) by means of the control contour (16) of the rotary latch (1) is pivoted freely ,

9. Motor vehicle door lock according to one of claims 1 to 8, characterized in that the second storage lever (8) during a closing movement of the rotary latch (1) by means of the control contour (16) against the stop (1 1) moves, so that the first storage lever ( 7) is taken.

10. Motor vehicle door lock according to one of claims 1 to 9, characterized in that the storage element (7, 8) in its storage position at the same time as a temporary block for an electromotive opening drive (12, 13, 14) acts.