EP1317596B1 - Motor vehicle doorlock with combined central locking and opening actuator - Google Patents

Description

The present invention relates to a motor vehicle door lock with a combined Zentralverriegelungs- and Öffnungsantrieb with the features of the preamble of claim 1.

The term of the motor vehicle door lock is to be understood comprehensively, not only side door locks and rear door locks, but, for example, also tailgate locks are covered.

The known motor vehicle door lock, from which the invention proceeds (EP 0 710 755 B1) initially has the usual closing elements in the form of a latch and a lock latch in the closed position locking pawl and a lock mechanism with a plurality of cooperating and the closing elements, if necessary, actuated elements , To the elements of the lock mechanism includes a by hand from an outside door handle o. The like. To be actuated external actuating element in the form of a toggle lever, which can actuate the pawl via a coupling element in the form of a pivotable and longitudinally displaceable lever in the engaged position. In disengaged, namely swung out of a driving lug in a free chnitted position of the coupling element, the external actuating element performs an idle stroke.

The coupling element is moved by an adjusting element from the engaged in the disengaged position, by motor actuation of the adjusting element by means of a central locking drive. When the central locking drive is operated again in the same operating direction the return of the adjustment takes place under spring force to its original position in the manner of a ballpoint pen mechanism and thus the return of the coupling element from the disengaged position in the engaged position.

In a second function, the central venous valve drive has the function of an opening drive, namely actuates the pawl. Between the pawl and the central locking drive can be provided for this purpose, an additional triggering element. The central locking drive has a drivable in two directions drive element in the form of a drive pinion, which meshes with a toothed segment on the adjusting element. In one direction, the drive element actuates the adjusting element, both engaging and disengaging, in the other direction, the trigger element and the closing element.

The spring-loaded ballpoint pen mechanism of the known motor vehicle door lock can also be configured with proper coordination of paths and spring forces, that the clutch located in the disengaged position coupling element is actuated by a motor actuation of the adjusting element in one of the engaged position storage position is adjustable with actuated external actuator, from the Clutch element is automatically displaced in the engaged position upon the termination of the operation of the external actuating element, and indeed, as explained, under the action of the spring force of a spring element. This ensures that you can unlock this motor vehicle door lock motor even if at the same time already an opening operation is done from the outside, the external actuating element has been pressed. The engaged position, ie the unlocked position, is stored here under spring force and automatically taken by release of the external actuating element under spring force. This is called a "comfort function".

The well-known, previously explained motor vehicle door lock is basically designed as an electric lock, namely, it is in normal operation only motor openable. Only in emergency mode it is mechanically openable by manual operation of the external actuating element.

When fitting an electric lock with a "passive entry" function, also called "electronic key", the motor vehicle door lock can be automatically unlocked when approaching the motor vehicle, without a keystroke on a remote control module o. The like.

A motor vehicle door locking system with passive entry function requires a certain reaction phase for the control electronics. The duration of the reaction phase is perceived as long compared to conventional motor vehicle door locking systems. The pulling of the outside door handle may in fact already take place if the reaction of the control electronics has not yet been completed. The operator then becomes angry that she has to pull the door handle a second time because she interprets this as a "malfunction". There are therefore various attempts to somehow conceal or shorten the resulting total time of the reaction (DE 195 21 024 A1, DE 197 52 974 A1).

A similar problem occurs even if a passive-entry function is not set up, for example, when a passenger tries to open the passenger door from the outside, although there the central locking drive has not yet shifted the coupling element in the engaged position (unlocked position).

There is not always the desire to use a pure electric lock as a motor vehicle door lock. In fact, there is still a considerable amount of mistrust of pure electric locks, which no longer have any mechanical opening operation. This mistrust is based on safety considerations.

For this purpose, one could imagine, the initially explained, known motor vehicle door lock (EP 0 710 755 B1), from which the invention proceeds, only mechanically operated from the outside door handle forth. Then the central locking drive needed to fulfill only the function of the actuation of the adjusting element. Also, such a motor vehicle door lock would be in the reaction time, if necessary, so slow that the outside door handle would have to be pulled a second time to open the motor vehicle door lock ultimately mechanically.

There is already a motor vehicle door lock known (EP 1 001 119 A1), which can be opened mechanically only from the outside door handle ago. The central locking drive has here only the function of the actuation of the adjusting element. Here it has already been recognized that this motor vehicle door lock may be too slow in the reaction time. In order to prevent that an outside door handle must be pulled a second time to ultimately open the motor vehicle door lock mechanically, is located. in the actuation path between the outside door handle and the locking member performing pawl a spring accumulator. This is already stretched when pulling the outside door handle and then released when releasing the adjustment by the central locking drive in turn. Powered by the spring energy storage then the pawl is excavated trailing, if the outside door handle is pulled further or at least held in the pulled position.

Although this construction is useful in terms of reaction time, but requires a further drawn outside door handle, so does not work if the outside door handle has been released prematurely.

The teaching is therefore based on the problem, the known, initially explained motor vehicle door lock in such a way that it works mechanically in principle, but nevertheless takes place in each case a fast opening.

The above-indicated problem is solved in a motor vehicle door lock with the features of the preamble of claim 1 by the features of the characterizing part of claim 1.

According to the invention, therefore, an opening operation is normally performed mechanically only from the outside door handle. So it is so far a purely mechanical motor vehicle door lock. The central locking drive has received its second function of the opening drive anyway, namely, when the outside door handle has been pulled or pressed faster than the control electronics for controlling the central locking drive and the central locking drive could react itself, which occur especially in the realization of the passive entry function can, regardless of the opening operation of the outside door handle to realize an electric opening. For then, if the central locking drive has not yet been unlocked, the central locking drive in the second function is effective and actuates the trigger element or the closing element as a motorized opening drive. The electric opening of the motor vehicle door lock is thus only when the operator operated the outside door handle faster than the motor, especially electromotive unlocking mechanism could react. A second operation of the outside door handle is not required because the door opens by itself.

Using the already present motorized central locking drive, one thus creates a comfort improvement, which will also be of general advantage in particular in the realization of a passive entry system in the motor vehicle, to a limited extent. Nevertheless, it is possible to maintain the motor vehicle door lock itself in the normal case (and in particular in an emergency) as a motor vehicle door lock to be opened purely mechanically. Safety concerns therefore continue.

Preferred embodiments and further developments of the teaching are the subject of the dependent claims.

For the teaching of the present invention, it does not matter whether the motor vehicle door lock is in one piece, so realized in a unit closing elements and lock mechanism and possibly lock electronics, or in two parts with one part the closing elements in a clamping unit, on the other hand, the lock mechanism and if necessary the lock electronics in one of them spatially separated control unit. The latter is also known from the prior art (DE 44 44 581 A1) with the advantage that the humidity-sensitive control unit in the dry room of a motor vehicle door and only the less moisture sensitive closing unit is arranged with the mechanical closing elements in the wet room of the vehicle door. Typical connecting elements for power transmission here are Bowden cables.

Fig. 1

ein erstes Ausführungsbeispiel eines Kraflfahrzeug-Türschlosses in einer Ansicht in Verriegelungsstellung,

Fig. 2

das Kraftfahrzeug-Türschloß aus Fig. 1, jedoch jetzt in Entriegelungsstellung, Türaußengriff nicht gezogen,

Fig. 3

in einer Fig. 2 entsprechenden Darstellung das Kraftfahrzeug-Türschloß, Türaußengriff im Leerhub gezogen bevor die Entriegelungsstellung erreicht war,

Fig. 4

in einer Fig. 1 entsprechenden Darstellung ein zweites Ausführungsbeispiel eines erfindungsgemäßen Kraftfahrzeug-Türschlosses,

Fig. 5

das Ausführungsbeispiel aus Fig. 4 ausschnittweise im unteren Bereich des Außenbetätigungselements 3,

Fig. 6

in einer schematischen Darstellung ein zweiteilig ausgeführtes Kraftfahrzeug-Türschloß und

Fig. 7

eine Steuereinheit eines zweiteilig ausgeführten Kraftfahrzeug-Türschlosses gemäß Fig. 6.

In the following the invention will be explained in more detail with reference to a drawing illustrating only embodiments. In the drawing shows

Fig. 1

A first embodiment of a Kraflfahrzeug door lock in a view in the locked position,

Fig. 2

the motor vehicle door lock of FIG. 1, but now in unlocked position, outside door handle not pulled,

Fig. 3

in a representation corresponding to FIG. 2, the motor vehicle door lock, outside door handle pulled in idle stroke before the unlocking position was reached,

Fig. 4

1 in a representation corresponding to a second embodiment of a motor vehicle door lock according to the invention,

Fig. 5

4 in the lower area of the external actuating element 3, FIG.

Fig. 6

in a schematic representation of a two-part motor vehicle door lock and

Fig. 7

a control unit of a two-part motor vehicle door lock according to FIG. 6.

The motor vehicle door lock 1 shown schematically in Fig. 1 in a perspective view is shown using the example of a motor vehicle side door lock. Also rear door locks, sliding door locks, flap locks, etc. are covered by the concept of the door lock.

Such a motor vehicle door lock 1 is part of a motor vehicle door locking system in which the various motor vehicle locks for motor vehicle doors and motor vehicle doors are motorized, preferably electric motor, unlockable and lockable. The control electronics of such a motor vehicle door closing system can have the passive entry function explained in the general part of the description. The illustrated motor vehicle door lock 1 is tuned in a special way to the boundary conditions in the realization of a passive entry function. As has already been stated in the general part of the description, however, the teaching is also important in a normal remote-controlled motor vehicle door lock 1 with a motor-operated central locking drive.

Fig. 1 shows first the motor vehicle door lock 1 with a lock mechanism with a plurality of interacting elements. First, a hand operated by an outside door handle, force action direction indicated by the arrow 2, from to be actuated external actuating element 3 in the form of a pivotably mounted on a bearing axis 4 external actuating lever. The external actuating element 3 is loaded against the direction of force 2 by a biasing spring, not shown. The external actuating element 3 thus returns under spring force when releasing the outside door handle in its starting position shown in Fig. 1. Provided is further a coupling element 5. The coupling element 5 is designed dumbbell-shaped in the illustrated embodiment with a pivot axis 6 and a coupling pin 7. This will be explained in more detail below.

Shown is also a closing element 8 in the form of a pawl. The associated, held by the pawl - closing element 8 - in the closed position lock latch 9 can be seen in Fig. 1 in the closed position. It is, as usual, designed as a rotary latch with a bearing axis 10, without this being limiting.

In principle, it would also be possible and it is also often realized between the closing element 8 and the coupling element 5 nor an additional element to arrange a trigger element, for example in the form of a finger lever. Reference may be made to the cited references, some of which show such additional triggering elements.

In the engaged position, the external actuating element 3 actuates the closing element 8 via the coupling element 5; in the disengaged position of the coupling element 5, the external actuating element 8 executes an idle stroke when the outside door handle is pulled. The disengaged position is shown in FIG. 1.

The coupling element 5 is displaceable in the non-actuated external actuating element 3 by a motor-operated adjusting element 11 from the engaged position to the disengaged position and vice versa. For the motor actuation of the adjusting element 11 is a central locking drive 12. This has in the illustrated embodiment, indicated in Fig. 1, an electric drive motor 13 and a worm gear 14 on. Other embodiments are known and usable in the prior art.

In a second function, the central locking drive 12 can actuate the closing element 8. How this happens is explained in more detail below.

It is essential first that an opening operation normally takes place mechanically only with the external actuating element 3. The central locking drive 12 actuates the closing element 8 in the second function only when the external operating element 3 is already in the idle stroke in this phase, that is, has been mechanically actuated so quickly that the coupling element 5 has not yet reached the engaged position. As a result, an operator is laminated, that the immediately following opening of the motor vehicle door lock 1 is not done by the mechanical operation with pulling the outside door handle, but was carried out electrically in the second function by the central locking drive 12. This function only occurs in exceptional cases. In the normal case, if sufficient time is available for actuating the adjusting element 11 by the central locking drive 12 in the first function, the subsequent opening operation of the motor vehicle door lock 1 takes place in a classical manner purely mechanically.

With the above-mentioned construction, on the one hand, the safety considerations of some car manufacturers are taken into account by providing a mechanically actuated motor vehicle door lock 1 which can be mechanically opened even in the event of an accident, on the other hand by clever double use of the central locking drive 12 Be considered operating problem, which can occur in particular in the realization of a passive entry function or otherwise premature pulling on the outside door handle.

It could now be provided that the central locking drive 12 has a drivable in two directions drive element 15, in particular in the form of a drive pinion or a drive eccentric which actuates the adjusting element 11 in one direction and actuates the trigger element or the closing element 8 in the other, opposite direction. This would be the construction embodied in the prior art central locking drive from which the teachings of the present application are based (EP 0 710 755 BI).

The illustrated and so far preferred embodiment is a different way, namely that the central locking drive 12 has a drivable in two directions drive element 15, in particular in the form of a drive pinion or a drive eccentric, in one direction, the adjusting element 11 in the direction of eingek-uppelten position and the triggering element or the closing element 8 is actuated and actuated in the other, opposite direction, the adjusting element 11 in the direction of the disengaged position and the closing element 8 releases. It thus has a direction equal operation of the adjusting element 11 in the direction of the engaged position and the closing element 8 in the opening direction (lifting the pawl).

The illustrated embodiment shows the drive element 15 in principle designed as a drive pinion, but degenerated into a dental arch, because only a pivoting over a relatively small angular range in both directions is required here.

The illustrated embodiment shows, as far as can be clearly seen from a comparison of Fig. 2 and Fig. 3 that here still the "comfort function" explained above is realized. This is achieved in that the coupling element 5 located in the disengaged position is adjustable with actuated external actuating element 3 by a motor actuation of the adjusting element 11 in one of the engaged position storage position (shown in Fig. 3), from which the coupling element 5 in the absence of actuation the external actuating element 3 is automatically displaced into the engaged position (shown in FIG. 2). The latter is preferably done under the force of a biasing spring acting in the illustrated embodiment on the coupling element 5 in the clockwise direction, which is not shown separately here.

The storage position, which is preceded by the engaged position, is defined in the illustrated embodiment by a lock 3 'on the external actuating element 3, which prevents in befindlichem in idle stroke external actuating element 3, that the coupling element 5 is incident in the engaged position. For this purpose, in the illustrated embodiment, the coupling pin 7 is under the spring force of the biasing spring, not shown, acting clockwise on the lock 3 '. If the external actuating element 3 has returned to its initial position, the path for the coupling pin 7 is free in the engaged position.

After releasing the external actuating element 3 so the mechanical coupling to the closing element 8 is closed, regardless of the fact that the lifting of the closing element 8 has already taken place by means of the central locking drive 12 in its second function as opening drive in the meantime. The following opening operations are again purely mechanical.

In the above-described embodiment, a particularly expedient, shown in the drawing construction is characterized in that the Drive element 15 is connected to a pivot arm 16 which pivots on actuation of the drive element 15 in one direction about a pivot axis 17 such that its free end meets the trigger element or the closing element 8 and actuates this, if the coupling element 5 is not in the engaged position, and runs freely, provided that the coupling element 5 is in the engaged position. Here, the coupling pin 7 is not on the coupling element 5 between the pivot arm 16 and closing element 8. The pivot arm 16 can pivot relatively far in a clockwise direction without affecting the pawl - closing element 8.

In contrast, in Fig. 3, the coupling pin 7 between the pivot arm 16 and the closing element 8. Further pivoting of the pivot arm 16 in Fig. 3 in a clockwise direction would cause the closing element 8 would be pivoted about the bearing axis 4 in the counterclockwise direction because of Hinge pin 7 this "pushes in front of him" as it were.

It is provided that the adjusting element 11 as on the pivot arm 16 at a distance from the pivot axis 17 mounted (pivot axis 11 ') lever is executed, the pivoting of the Swivel arm 16 about the pivot axis 17 performs a substantially linear adjustment movement. The drive movement of the drive element 15 is thus implemented on the one hand in a pivoting movement of the pivot arm 16, on the other hand leads to a displacement of the adjusting element 11 for the purpose of adjustment of the coupling element 5. Thus, one can realize the desired, superimposed movements for the different functions, although the central locking drive 12th only runs in one direction (and returns to the starting point against this direction).

The coupling element 5 is executed in the illustrated embodiment as pivotally mounted on the adjusting element 11, one end running in a slot 18 with the coupling pin 7 lever. The gate 18 is formed in the adjusting element 11 arcuate (bean-like), right next to this gate 18 is the pivot axis 6 of the coupling element fifth

For the illustrated and preferred embodiment also applies that the coupling element 5 forming the lever is spring-loaded to the engaged position of the facing end of the link 18 back, by a biasing spring, not shown here.

Figs. 1 to 3 also make it clear that in the illustrated and insofar preferred embodiment, an actuating arm 19 of the closing element 8 and an actuating arm 20 of the external actuating element 3 form an open slot 21, in which the coupling pin 7 of the coupling element 5 is immersed in the engaged position and not immersed in disengaged position. The engaged position is shown in FIG. 2, the disengaged position is shown in FIG. 1.

The second function for the central locking drive 12 is thereby realized that the actuating arm 19 of the closing element 8 extends beyond the open end of the slot 21 and the pin 7 of the coupling element 5 in disengaged position or possibly in the storage position in front of this actuating arm 19th stands. Even then, the power transmission to the closing element 8 - pawl - done, but only from the pivot arm 16 of the central locking drive 12. In contrast, the coupling pin 7 deviates during normal operation by hand upwards into the slot 21, the pivot arm 16 is now ineffective, but the external actuating element 3 acts via the actuating arm 20.

In general, the part immersed in the slot 21 need not be a pin 7. This part 7 of the coupling element 5 may also have many other forms, for example, be integrally formed on the coupling element 5.

Fig. 3 shows the central locking drive 12 below the closing element 8 and the rotary latch 9. As a result, this arrangement builds relatively high overall. Conveniently, in contrast, that the external actuating element 3 is mounted on the bearing axis 4, on which the closing element 8 is mounted.

Fig. 4 shows an embodiment, which initially differs from the previously described embodiment in that the central locking drive 12 has been moved upwards, approximately to the height of the closing element 8. This makes the overall structure of the motor vehicle door lock 1 at least in height (relative to the drawing plane) more compact.

Next, a simplification is provided by the fact that in the lock mechanism, the existing in the first embodiment adjustment element 11 is omitted. This is because here the coupling element 5 is mounted directly on the drive element 15. The coupling element 5 itself is limited relative to the drive member 15 relative movable, in that it is designed as running on the drive element 15 in a link 18 lever which is spring-loaded to the engaged position of the facing end of the link 18 in the drive element 15 out.

Fig. 4 shows the Fig. 1 corresponding position in this embodiment, ie the locking position, the coupling element 5 so in the disengaged position. The lock 3 on the outer actuating element 3 would in this position in the idle stroke on the coupling pin 7 of the coupling element 5 vorbeischwenken, this coupling pin 7 would stop before the actuating arm 19 of the closing element 8. The indicated pivot arm 16, however, would meet in this position even with persistent coupling element 5 (deflected against spring force) on the pin 7 and move over this the actuating arm 19.

Fig. 5 shows the lower portion of the external actuating element 3 with the lock 3 'in a fragmentary side view. It can be seen that the external actuating element 3 'to the formation of the lock 3' is "cranked" and protrudes with the lock 3 'in the movement path of the coupling pin 7. In the position shown in Fig. 4, as shown in FIG. 5, the lock 3 'relative to the coupling pin 7 offset downward, the coupling pin 7 is not hit. However, if the coupling pin 7 laid down, so he enters the lock 3 'and this can then cause the transmission of force to the actuating arm 19 of the closing element 8 with the interposition of the coupling pin 7.

The particular advantages of the motor vehicle door lock 1 according to the invention have already been explained in the general part of the description, it should be pointed out.

Figures 6 and 7 show an embodiment in which the motor vehicle door lock is made in two parts. This concept is already known from the prior art (DE 44 44 581 A1) and allows to accommodate the moisture-sensitive components of the motor vehicle door lock in the drying room of a motor vehicle door and to leave only the less moisture-sensitive closing elements in the wet room. Fig. 6 shows the closing elements, namely pawl 8 and lock catch 9, in a mechanical closing unit 22, which sits in the usual place on the front plate of the vehicle door and is preferably protected against moisture from outside and inside as good as possible. The remaining elements of the motor vehicle door lock, in particular so the lock mechanism and any existing lock electronics are summarized in a spaced from the clamping unit 22 control unit 23. The control unit 23 is located on the inside of the partition wall between the wet room and the drying room in the dry space of the vehicle door. The closing unit 22 is connected to the control unit 23 by means of a mechanical removal force transmission means 24. This power transmission means 24 is already preferred in the prior art, a Bowden cable. This is also the case in the illustrated embodiment. Thus, the laying of the mechanical power transmission means 24 from the drying room in the wet room is best carried out. In principle, of course, other power transmission means 24, for example rods with or without lever can be used.

Fig. 7 shows a control unit 23 of the preferred embodiment of a motor vehicle door lock according to the invention. The above-mentioned individual elements of the lock mechanism in this control unit 23 are identified with the same reference numerals as in the previously explained embodiment. It is indicated that in a plane behind the plane shown in the housing 25 of the control unit 23 is a lock electronics.

In addition to the elements already explained above, the embodiment of Fig. 6 still has a Bowden cable 26 for attacking a lock cylinder on Adjusting element 11 (ZV-safety lever) and a second electric drive motor 27 and a separate worm wheel 28 having theft-securing drive. This shifts an anti-theft pin 29 in an angular slot of an internal operating lever 30, which in turn is connected by means of another Bowden cable 31 to a door inside handle. Also for this basic design may be made to the state of the art.

It can be seen overall that the realization of the teaching of the present invention has a certain function of the motor vehicle door lock result, which is independent of whether the motor vehicle door lock is made in one piece or in two parts. Even with the bipartite, the power transmission ratios can be realized by Bowden cables, etc.

The advantages of a two-part arrangement of the motor vehicle door lock are among others in the following:

With a suitable arrangement of the control unit 23, in particular in the vicinity of the door hinges in the motor vehicle door or flap, the control unit 23 is exposed to therein shock-sensitive lock electronics of a lower mass acceleration than previously on the hinge point far edge of the vehicle door.

The two-part design allows, on the one hand, the closing unit 22, on the other hand, the control unit 23 block-like, so no longer, as in integrated design, L-shaped execute. This makes it possible to better exploit the space in the motor vehicle door or flap.

The combination with a corresponding inner handle assembly allows an emergency lock directly to the control unit 23 from the inside.

Finally, with a suitable arrangement of the control unit 23, an improved theft protection is given.

Through the passive entry system and a switch to detect the operation of the outside door handle, the control electronics can detect whether only unlocked or whether the motor drive should also fulfill the opening function. The control of the electric drive motor 13 of the central locking drive 12 can be done in this way as needed with only the respectively necessary power supply.

In order to protect the Meachanik and to minimize the generation of noise, one can, for example, lower the drive voltage of the electric drive motor 13 in the central locking function as in the opening function, for example to 8.0 V instead of 12.0 V.

Claims (21)

1. Motor vehicle door lock which may be unlocked and locked by motor and may be opened both mechanically and by motor,
   with a lock mechanism with a plurality of elements cooperating with one another, namely at least with
   an external actuating element (3) to be actuated manually from an external door handle,
   a coupling element (5),
   a lock element (8), in particular in the form of a detent pawl, and possibly a release element,
   the external actuating element (3) being able to actuate, in the coupled position and via the coupling element (5), the lock element (8) or the release element and thereby the lock element (8), executing an idle stroke, however, in the uncoupled position,
   the coupling element (5) being able to be adjusted by motor from the coupled position into the uncoupled position and vice versa when the external actuating element (3) is not actuated,
   a central locking drive (12) being provided for the motorized actuation of the coupling element (5), and
   the central locking drive (12) in a second function being able to actuate by motor the lock element (8) or the release element and thereby the lock element (8),
   characterized in that opening actuation normally takes place mechanically only by means of the external actuating element (3) when the coupling element (5) is in the coupled position, in that the central locking drive (12) in the second function only actuates the lock element (8) or the release element and thereby the lock element (8) by motor when the external actuating element (3) in this phase is already in the idle stroke.
2. Motor vehicle door lock according to Claim 1, characterized in that the coupling element (5) may be actuated by motor via an adjustment element (11).
3. Motor vehicle door lock according to Claim 1 or 2, characterized in that the central locking drive (12) comprises a drive element (15), in particular in the form of a drive pinion or a drive cam, which may be driven in two directions and which, in one direction, actuates the coupling element (5) and/or the adjustment element (11) and, in the other direction, actuates the release element or the lock element (8).
4. Motor vehicle door lock according to Claim 1 or 2, characterized in that the central locking drive (12) comprises a drive element (15), in particular in the form of a drive pinion or a drive cam, which may be driven in two directions and which, in one direction, actuates the coupling element (5) and/or the adjustment element (11) in the direction of the coupled position and actuates the release element or the lock element (8) and in the other direction actuates the coupling element (5) and/or the adjustment element (11) in the direction of the uncoupled position and releases the lock element (8) for return into the locked position.
5. Motor vehicle door lock according to one of Claims 1 to 4, characterized in that the coupling element (5), in the uncoupled state and when the external actuating element (3) is actuated, may be adjusted by motorized actuation into a storage position preceding the coupled position, from which storage position the coupling element (5) is moved automatically into the coupled position when the actuation of the external actuating element (3) is omitted, preferably under the action of the spring force of a spring element.
6. Motor vehicle door lock according to Claim 4 and optionally Claim 5, characterized in that the drive element (15) is connected to a pivot arm (16) which, when the drive element (15) is actuated, pivots in one direction about a pivot axis (17) such that its free end strikes the release element or the lock element (8) and actuates said release element or said lock element, if the coupling element (5) is not in the coupled position, and runs freely, if the coupling element (5) is in the coupled position.
7. Motor vehicle door lock according to Claim 6, characterized in that the adjustment element (11) is configured as a lever mounted on the pivot arm (16) at a distance from the pivot axis (17) which, when the pivot arm (16) pivots about the pivot axis (17), executes a substantially linear adjustment motion.
8. Motor vehicle door lock according to one of Claims 1 to 7, characterized in that the coupling element (5) is configured as a lever running at one end in a slide (18) and which is pivotably mounted on the adjustment element (11).
9. Motor vehicle door lock according to Claim 8, characterized in that the lever is spring-loaded towards the end of the slide (18) facing the coupled position.
10. Motor vehicle door lock according to Claims 4 and 5 and optionally Claim 6, characterized in that the coupling element (5) is mounted directly on the drive element (15) and is able to move relative thereto in a restricted manner.
11. Motor vehicle door lock according to Claim 10, characterized in that the coupling element (5) is configured as a lever running on the drive element (15) in a slide (18).
12. Motor vehicle door lock according to Claim 11, characterized in that the lever is spring-loaded towards the end of the slide (18) facing the coupled position.
13. Motor vehicle door lock according to one of Claims 1 to 12, characterized in that a catch (3') is located in the lock mechanism, in particular on the external actuating element (3) which catch, when the external actuating element (3) executes an idle stroke, prevents the coupling element (5) from engaging the coupled position.
14. Motor vehicle door lock according to one of Claims 1 to 13, characterized in that an actuating arm (19) of the lock element (8) and an actuating arm (20) of the external actuating element (3) form a slot (21) which is open at one end, into which a part (7) of the coupling element (5), in particular a journal, is inserted in the coupled position and is not inserted in the uncoupled position.
15. Motor vehicle door lock according to Claim 14, characterized in that the actuating arm (19) of the lock element (8) extends beyond the open end of the slot (21) and the part (7) of the coupling element (5) is also in the uncoupled position and/or optionally in the storage position in front of this actuating arm (19).
16. Motor vehicle door lock according to one of Claims 1 to 15, characterized in that the lock elements, namely the detent pawl (8) and the lock latch (9), in particular, are combined in a mechanical lock unit (22), in that the remaining elements of the motor vehicle door lock, in particular the lock mechanism and optionally the lock electronics, are combined in a control unit (23), in that the lock unit (22) is to be spaced apart from the control unit (23) in or on the motor vehicle door or motor vehicle boot lid and in that the release element for actuating the lock element (8) comprises or represents a mechanical distance-force transmission means (24), in particular a Bowden cable.
17. Motor vehicle door lock according to Claim 16, characterized in that the lock unit (22) may be arranged in the wet space and the control unit (23) may be arranged in the dry space of a motor vehicle door or motor vehicle boot lid and the mechanical force transmission means (24), in particular the Bowden cable, passes through a wet/dry separation of the motor vehicle door or motor vehicle boot lid.
18. Motor vehicle door lock according to Claim 16 or 17, characterized in that the lock unit (22) and/or the control unit (23) comprises one housing (25), and/or one respective housing, which is substantially encapsulated outwardly.
19. Motor vehicle door lock according to one of Claims 1 to 18, characterized in that the central locking drive (12) comprises an electric drive motor (13).
20. Motor vehicle door lock according to Claim 19, characterized in that the electric drive motor (13) in the first function of the central locking drive (12), namely unlocking/locking, operates with less power than in the second function, namely for actuating the release element or the lock element (8).
21. Motor vehicle door lock according to Claim 20, characterized in that the electric drive motor (13) in the first function is triggered at a lower voltage than in the second function, in particular at approximately 8 V compared to approximately 12 V.

Images